Ana Cecilia Noguez Garrido

.

Ana Cecilia Noguez Garrido

Curriculum Vitae

27 de enero de 2017

27 de enero de 2017 Curriculum Vitae: Cecilia Noguez pagina ii

Contents

DATOS GENERALES 1

FORMACION ACADEMICA 1

EXPERIENCIA PROFESIONAL 2Campo de especialidad 2Puestos academicos en investigacion 2Puestos academicos en docencia 2

MEMBRESIAS EN SOCIEDADES CIENTIFICAS 2

PARTICIPACION EN ORGANOS COLEGIADOS 3Organos colegiados en la UNAM 3Organos colegiados nacionales e internacionales 3Organizacion de reuniones cientı�cas nacionales e internacionales 3Agencias de apoyo a la investigacion cientı�ca como arbitro regular 4

PARTICIPACION EDITORIAL 4Trabajo editorial 4Arbitro regular de las siguientes revistas internacionales 4

PREMIOS, RECONOCIMIENTOS Y DISTINCIONES 5Premios y distinciones academicas 5Otros reconocimientos academicos 6Sistema Nacional de Investigadores (SNI) y Estımulos academicos UNAM (PRIDE) 6Becas 6

CONFERENCIAS, SEMINARIOS Y COLOQUIOS 7Por invitacion (158) 7

– Platicas invitadas internacionales 7– Platicas invitadas nacionales 10– Platicas de divulgacion 12

Presentaciones regulares (134) 13

PROYECTOS FINANCIADOS 13Responsable (16) 13Corresponsable (4) 13Participante (12) 14

FORMACION DE RECURSOS HUMANOS 14Cursos Docentes (53) 14Tesis y posdoctorantes 15

– Finalizados (19) 15– En proceso (6) 17

Participacion en examenes de grado como sinodal (36) 18Participacion en examenes generales y predoctorales (6) 19

27 de enero de 2017 Curriculum Vitae: Cecilia Noguez pagina iii

PRODUCCION CIENTIFICA 20Tabla de publicaciones 20Portadas 21Lista de publicaciones (94) 21

– Revistas indizadas JCR con estricto arbitraje 21– Artıculos en revistas internacionales con estricto refereo no JCR 26– Artıculos en revistas de circulacion local con arbitraje no JCR 26– Capıtulos en libros 26– Memorias en extenso con arbitraje de circulacion internacional 27– Memorias en extenso en espanol 27– Artıculos de divulgacion 28

CITAS 28Tabla informativa de citas ISI (WoS) & SCOPUS (3186) 29Lista de citas sin autocitas (2970) 30

LISTA DE TRABAJOS EN CONGRESOS CON PARTICIPACION REGULAR 124

27 de enero de 2017 Curriculum Vitae: Cecilia Noguez pagina 1

Ana Cecilia Noguez Garrido

DATOS GENERALES

LABORALESNombramiento: Investigadora Titular C, Tiempo Completo, De�nitiva

Sistema Nacional de Investigadores: Investigadora Nacional Nivel IIIPrograma de desempeno academico: PRIDE Nivel D

Domicilio Profesional: Instituto de Fısica, UNAM, Circuito de la Investigacion Cientı�ca s/n, Cd. Universitaria,Cd. Mx. 04510, Mexico

Telefono: ++52–55–5622–5106E-mail: cecilia@�sica.unam.mx

Google Scholar web page: https://scholar.google.com.mx/citations?hl=en&user=9JVn-G0AAAAJ&view_op=list_works

FORMACION ACADEMICA

1995–1996 POSDOCTORADO Posdoctoral Research AssistantInstitucion: Ohio UniversityTema de investigacion: Calculos ab initio de propiedades opticas de clusters y super�cies

1993–1995 DOCTORADO en Ciencias (Fısica)Institucion: Facultad de Ciencias, UNAMFecha de examen: 13 de julio de 1995Tıtulo de tesis: Propiedades opticas de sistemas inhomogeneos de baja dimensionalidad

1990–1993 MAESTRIA en Ciencias (Fısica)Institucion: Facultad de Ciencias, UNAMExamen: General de ConocimientosFecha de examen: 22 de enero de 1993

1985–1990 LICENCIATURA FısicaInstitucion: Facultad de Ciencia, UNAMFecha de examen: 30 de mayo de 1990Tıtulo de tesis: La respuesta dielectrica de medios compuestos: un nuevo enfoque

CURSOS ESPECIALIZADOS08/1996 Univ. Illinois (Urbana) Computational Material Science07/1992 School “Enrico Fermi” Perspectives in Many-Particle Physics07/1991 Scottish Summer Schools Physics of Nanostructures10/1989 Fac. Ciencias UNAM Hydrodynamics of Suspensions

mailto:[email protected]

https://scholar.google.com.mx/citations?hl=en&user=9JVn-G0AAAAJ&view_op=list_works

https://scholar.google.com.mx/citations?hl=en&user=9JVn-G0AAAAJ&view_op=list_works


EXPERIENCIA PROFESIONAL

Campo de especialidad

Disciplina: Fısica teorica y computacionalSubdisciplina: Estado solido, NanocienciaEspecialidad: Propiedades atomicas, electronicas y opticas de la materia

Investigacion en: Plasmonica, Electrodinamica en Medios Continuos, Quiralidad y Actividad Optica, Fuerzas Disper-sivas, Adsorbcion en Super�cies, Desarrollo de Computo Cientı�co

Puestos academicos en investigacion

08/2010 – 07/2011 PROFESORA INVITADADepartamento de Quımica, Northwestern University (NU), Financiado por NU y UNAM-DGAPA

08/2005 – vigente INVESTIGADORA TITULAR C de tiempo completo de�nitivaInstituto de Fısica, UNAM, Concurso de oposicion abierto

06/2003 – 08/2005 INVESTIGADORA TITULAR B de tiempo completo de�nitivaInstituto de Fısica, UNAM, Concurso de oposicion cerrado

08/2000 – 12/2000 PROFESORA INVITADADepartamento de Fısica y Astronomıa, Ohio University (OU), Financiado por AMC y OU

01/2000 – vigente DEFINITIVIDAD Investigadora Titular de tiempo completoInstituto de Fısica, UNAM, Concurso de oposicion cerrado

11/1999 – 06/2003 INVESTIGADORA TITULAR A de tiempo completoInstituto de Fısica, UNAM , Concurso de oposicion abierto

10/1995 – 11/1999 INVESTIGADORA ASOCIADA C de tiempo completoInstituto de Fısica, UNAM, Contrato por obra determinada

Puestos academicos en docencia

2002 – vigente Tutora Doctorado, Posgrado en Ciencias Fısicas, UNAM1996 – vigente Tutora Maestrıa, Posgrado en Ciencias Fısicas, UNAM1991 –vigente Profesora de Asignatura, Facultad de Ciencias, UNAM

01/2009 – 06/2009 Profesora de Asignatura, Univ. Iberoamericana2000 – 2009 Tutora Doctorado, Posgrado en Ciencias Fısicas y en Materiales, BUAP

11/1988 – 05/1992 Ayudante de Profesor de Asignatura, Facultad de Ciencias, UNAM

MEMBRESIAS EN SOCIEDADES CIENTIFICAS

2005 American Chemical Society (ACS) 1998 Academia Mexicana de Ciencias (AMC)1998 Sociedad Mexicana de Materiales 1993 American Physical Society (APS)1990 Materials Research Society (MRS) 1988 Sociedad Mexicana de Fısica (SMF)


PARTICIPACION EN ORGANOS COLEGIADOS

Organos colegiados en la UNAM

04/2016 – vigente Miembro del Consejo Asesor de la DGTIC08/2015 – vigente Representante titular del personal academico del IFUNAM ante el Consejo Tecnico de la Investigacion

Cientı�ca08/2015 – 04/2016 Miembro de la CAAA del Consejo Tecnico de la Investigacion Cientı�ca06/2012 – 07/2015 Representante suplente del personal academico del IFUNAM ante el Consejo Tecnico de la Investigacion

Cientı�ca08/2012 – 06/2015 Miembro del Consejo Asesor de Computo IFUNAM06/2011 – 06/2013 Miembro de la comision evaluadora del PRIDE de la DGTIC06/2009 – 05/2011 Miembro de la comision evaluadora del PRIDE de la DGSCA04/2006 – 05/2010 Coordinadora del paquete de materias de Estado Solido, Materia Condensada y Nanociencias, Pos-

grado en Ciencias Fısicas2003 –2010 Organizacion de la Red de Grupos de Investigacion en Nanociencia, REGINA–UNAM

2005 Participacion en el Diseno Curricular y Determinacion de Contenidos para la Universidad de la Cienegadel Estado de Michoacan de Ocampo: carrera de Nanotecnologıa, colaboracion con el Centro deEstudios sobre la Universidad, UNAM

2003 – 2010 Miembro de la comision de becas del Instituto de Fısica, UNAM06/2001 – 05/2002 Representante del Departamento de Estado Solido ante el Consejo Interno del IFUNAM06/2000 – 05/2001 Representante suplente del Departamento de Estado Solido ante el Consejo Interno del IFUNAM

Organos colegiados nacionales e internacionales

01/2017 – vigente Miembro del Consejo Consultivo de Ciencias (CCC) de la Presidencia de la Republica04/2016 Miembro del comite de evaluacion de Laboratorios Nacionales del CONACyT02/2016 Miembro del comite de evaluacion de Laboratorios Nacionales del CONACyT

01/2016 – vigente Comision dictaminadora externa del Instituto Nacional en Astrofısica, Optica y Electronica (INAOE)03-05/2015 Miembro del comite de evaluacion de Laboratorios Nacionales del CONACyT

11/2014 – vigente Comision dictaminadora externa del Centro de Investigaciones en Optica A.C. (CIO)05/2014 Miembro del comite de evaluacion de Laboratorios Nacionales del CONACyT10/2013 Miembro del comite de evaluacion y segumiento de Laboratorios Nacionales del CONACyT,

10/2013 – vigente Miembro del Molecular Foundry Proposal Study Panel at Lawrence Berkeley National Laboratory06/2012 – 06/2014 Comision de premios de la Academia Mexicana de Ciencias11/2009 – vigente Miembro del Consejo Tecnico Academico de la Red Tematica de Nanociencias y Nanotecnologıa,

CONACyT09/2011 – 11/2012 Presidenta del comite de evaluacion de Laboratorios Nacionales del CONACyT

2008 – 2012 Miembro del Comite Cientı�co del ICPCNanoNet Steering Group10/2008 – 10/2010 Tesorera de la Division de Nanociencias y Nanotecnologıa (DINANO) de la Sociedad Mexicana de Fısica

2005 – vigente Miembro del Scienti�c Advisory Board de Nanopolis

Organizacion de reuniones cientı�cas nacionales e internacionales

2016 Symposium Hybrid and Bio-Inspired Plasmonic Materials en el XXV IMRC, Cancun Mexico2015 Symposium Frontiers in Plasmonic Materials en el XXIV IMRC, Cancun Mexico2015 Comite tecnico del Programa Cientı�co del 11th International Symposium on Optics of Surfaces and Interfaces (OSI-X

2013), Austin, Texas


2013 Miembro del comite cientı�co del 10th International Symposium on Optics of Surfaces and Interfaces (OSI-X 2013),en Chemnitz, Germany

2011 Presidenta del comite organizador del 9th International Symposium on Optics of Surfaces and Interfaces (OSI-IX2011), Akumal Mexico del 18 al 23 de Septiembre

2010 Vicepresidenta del comite organizador del 15th International Symposium on Small Particles and Inorganic Clusters(ISSPIC-XV 2010)

2006 Miembro del Comite Cientı�co de la reunion Ciencia Mujer 20062006 Organizadora del Simposio homenaje a Prof. Sergio E. Ulloa por su ingreso como miembro correspondiente a la

Academia Mexicana de Ciencias2002 Organizadora del Simposio en honor a Ruben G. Barrera Instituto de Fısica, UNAM2001 Organizadora del taller Workshop on parallel programing using MPI Message-Passing Library, 29 de mayo al 5 de

junio, IFUNAM1998 Co-organizadora del simposio Theory and Computer Simulation of Materials - Electronic Structure and Optical Pro-

perties, dentro del congreso International Materials Research Congress (IMRC), Cancun Mexico1998 Co-organizadora del “Taller de propiedades mecanicas, electricas y opticas”, dictado por el Dr. James Berryman del

Lawrence Livermore National Laboratory. Instituto de Fısica, UNAM enero.96/97 Organizadora del Seminario Semanal del Departamento de Estado Solido del IFUNAM

Agencias de apoyo a la investigacion cientı�ca como arbitro regular

a partir del ano en que se indica

2011 FONCyT, Argentina 2010 National Science Foundation, USA2008 Universidad Nacional de Colombia 2005 The Netherlands Foundation for Fundamental Research on Matter2003 Universidad Autonoma de Puebla 2003 Sociedad Mexicana de Fısica2002 Proyectos PAPIIT DGAPA, UNAM 1998 Proyectos de Ciencia Basica, CONACyT

PARTICIPACION EDITORIAL

Trabajo editorial

2016 Editora huesped de la revista Ciencia, volume 67, numero 308/2014 – vigente Editora huesped de la revista Journal of Nanoparticle Research (Springer-Nature)06/2012 – vigente Editora de la revista Ciencia de la Academia Mexicana de Ciencias2012 Editora huesped de la revista physica status solidi (b), volume 249, numero 603/2011 – vigente Miembro del Consejo Editorial de la Revista Internacional ISRN Nanotechnology2009 – vigente Miembro del SCIYO Scienti�c Advisory Board2011 Editora huesped de la revista European Physical Journal D, volumen 63, numero 2

Arbitro regular de las siguientes revistas internacionalesa partir del ano en que se indica (deje de contar en 2012)

2011 Nano Letters 2012 J Nanopart. Research2010 Gold Bulletin 2010 Int J of Spectroscopy2010 J of Materials Science 2010 Surface Science2010 Applied Optics 2010 Langmuir2010 Sensors & Actuators: A. Physical 2010 J Molecular Structure-Teochem2010 J of Colloid and Interface Science 2010 Materials2010 Current Physical Chemistry 2010 Opto-Electronics Review2010 Journal of Applied Polymer Science 2010 Rapid Research Letter


2010 Optics Letters 2009 Journal of Optics2009 Physica Status solidi b 2009 Optics Express2009 J. Physical Chemistry Letters 2009 Journal of Applied Physics2009 Materials Sci. and Engineering B 2009 Plasmonics2009 Euro Physics Letters 2009 Crystal Research and Technology2009 Applied Surface Science 2008 Current Nanoscience2008 Clinica Chimica Acta 2008 Nanotechnology2008 Applied Physics Letters 2008 European Phys. J. D2008 Accounts of Chemical Research 2008 Physical Review A2008 New Journal of Physics 2007 Materials Chemistry and Physics2007 Chemical Physics Letters 2007 ACS Nano2007 J. Nanoscience and Nanotechnology 2007 Journal of Physical Chemistry2007 Journal of Chemical Physics 2006 Journal of Physics D2006 Nature Nanomaterials 2005 Journal of Physics: Cond. Matter2005 Journal of Physics A 2005 Physical Chem. Chem. Phys.2005 Journal Am. Chem. Society 2004 Journal of Physical Chemistry B2004 Chemistry of Materials 2003 Revista Mexicana de Fısica1997 Physical Review Letters 1996 Physical Review B

PREMIOS, RECONOCIMIENTOS Y DISTINCIONES

Premios y distinciones academicas

2016 Premio Nacional de Ciencias en el area Ciencias Fısico-Matematicas y Naturales, Gobierno de la Republica Mexicana.

2015 Reconocimiento como una de las academicas de carrera en la UNAM mas citadas en la literatura cientı�ca en el areade fısica en el 2014 segun SCOPUS, UNAM

2015 Reconocimiento: Juan Manuel Lozano Mejıa a la direccion de tesis de doctorado, Instituto de Fısica, UNAM diciembre

2014 Reconocimiento como una de las academicas de carrera en la UNAM mas citadas en la literatura cientı�ca (en el areade fısica en el 2013 segun SCOPUS, UNAM

2013 Reconocimiento como una de las academicas de carrera en la UNAM mas citadas en la literatura cientı�ca en el areade fısica en el 2012 segun SCOPUS, UNAM

2012 Reconocimiento Sor Juana Ines de la Cruz, UNAM

2010 Premio Ciudad Capital: Heberto Castillo Martınez, Edicion “Bicentenario de la Independencia y Centenario de la Revo-lucion en la Ciudad de Mexico”, Premio para cientı�cas mexicanas destacadas, otorgado por el Gobierno del DistritoFederal en colaboracion con la Academia Mexicana de Ciencias para Cientı�cas de 45 anos o menos

2009 Premio Thomson Reuters al artıculo mexicano mas citado en quımica (nanociencia). Estos premios reconocen a losautores lıderes de trabajos desarrollados en Mexico que han sido mas citados en su categorıa de investigacion originalen los ultimos diez anos

2009 Premio de Investigacion en el area de Ciencias Exactas otorgado por la Academia Mexicana de Ciencias

2008 Reconocimiento a la direccion de la mejor tesis doctoral en Ciencia e Ingenierıa de Materiales del certamen interna-cional IIM-UNAM de la alumna Ana Lilia Gonzalez Ronquillo

2008 Premio Weizmann en Ciencias Exactas a la alumna de doctorado Ana Lilia Gonzalez Ronquillo a la mejor tesis doctoralotorgado por la Academia Mexicana de Ciencias


2006 Reconocimiento a la direccion de la mejor tesis doctoral en Ciencia e Ingenierıa de Materiales del certamen interna-cional IIM-UNAM de la alumna Xochitl Lopez Lozano

2006 Reconocimiento “Distincion Universidad Nacional para Jovenes Academicos” en el area de Ciencias Exactas 2006,UNAM

1999 Miembro regular de la Academia Mexicana de Ciencias (AMC)

1999 Premio del Fondo “Ricardo J. Zevada” a proyectos de investigacion en Ciencias Exactas a Jovenes Cientı�cos 1999-2000

1997 El trabajo Theoretical and experimental optical spectroscopy study of hydrogen adsorption at Si(111)-7×7, por CeciliaNoguez, et al., Physical Review Letters 76, 4923 – 4926 (1996), fue seleccionado por el Instituto Nacional de Fısica dela Materia (INFM) de Italia como trabajo de excelencia

1996 Premio Weizmann en Ciencias Exactas a la mejor tesis de doctorado otorgado por la Academia Mexicana de Ciencias

1996 Medalla Gabino Barreda a la mejor alumna del Doctorado en Ciencias (Fısica), UNAM

Otros reconocimientos academicos

2016 Nominada al Premio Nacional de Ciencia por parte del Instituto Nacional de las Mujeres (INMUJERES).

2012 El artıculo Surface Plasmons on Metal Nanoparticles: The In�uence of Shape and Physical Environment, Cecilia Noguez,Journal of Physical Chemistry C 111 (10) 3806 – 3819 (2007), fue uno de los cinco artıculos mas citados desde supublicacion hasta los 5 anos posteriores. Actualmente es la publicacion realizada en Mexico por un solo autor conmas citas en tres disciplinas diferentes: la fısica, la quımica y la ciencia de materiales.

2012 El artıculo Plasmonic Optical Properties and Applications of Metal Nanostructures, Jin Z. Zhang, Cecilia Noguez,Plasmonics 4, 127 – 150 (2008), esta dentro de los cuatro artıculos mas citados desde su publicacion hasta los 5 anosposteriores. Actualmente es uno de los 10 artıculos mas citados de la revista.

2011 Nominada al premio The Ernesto Illy Trieste Science Prize de la TWAS por Northwestern University y la UNAM

2010 El artıculo Optical Properties of Isolated and Supported Metal Nanoparticles, Cecilia Noguez, en el Optical Materials 27,1204 – 1211 (2005), fue el segundo artıculo mas citado de la revista desde su publicacion hasta los 5 anos posteriores.

Sistema Nacional de Investigadores (SNI) y Estımulos academicos UNAM (PRIDE)

PRIDE SNI

2006 – 2020 Nivel D (maximo) 2011 – 2021 Nivel III (maximo)1999 – 2006 Nivel C 2002 – 2010 Nivel II1995 – 1999 Nivel B 1996 – 2002 Nivel I

1994 – 1996 Candidato

Becas

07/2000–10/2000 Estancia de verano Fundacion Mexico–Estados Unidos para la Ciencia y Academia Mexicana de Ciencias1993 – 1995 Estudios de doctorado DGAPA-UNAM1991 – 1993 Ayudante de Inv. Nacional nivel III1990 – 1992 Estudios de maestrıa DGAPA-UNAM1986 – 1990 Estudios de licenciatura DGAPA-UNAM1983 – 1984 Estudios de preparatoria, sistema incorporado UNAM


CONFERENCIAS, SEMINARIOS Y COLOQUIOS

Por invitacion (158)

– Invitaciones en eventos internacionales . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 78– Invitaciones en eventos nacionales . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61– Invitaciones en eventos de divulgacion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19

– Platicas invitadas internacionales

2017 Conference Mexican Optics and Photonics Meeting 2017 in Tonantzintla, Puebla, Mexico on September 6 to 8. Programada.

2017 Conference Symposium Biomedical Applications of Nanoparticles taking place within XXVI IMRC to be held 20-25 August in CancunQ. Roo, Mexico. Programada.

2017 Conference Optics of Surfaces and Interfaces (OSI-12), to be held June 25-30, in Dublin, Ireland. Programada.

2017 Conference Mexican-Italian Nanophotonics Workshop (MINW) to be held 16-20 January at Tequisquiapan, Queretaro, Mexico.

2017 Conference XLVI edition of the Winter Meeting of Statistical Physics WMSP-2017 will take place in Hotel Monte Taxco, in TaxcoGuerrero, Mexico, from the 8th to 11th of January. Declinada.

2016 Conference 6th Mexican Workshop on Nanostructured Materials (MWNM) which will be held during October 12-14, at PueblaMexico.

2016 Distinguished Speaker Latin America Optics and Photonics LAOP 2016 Medellin, Colombia from August 22nd to August 25th.Declinada.

2016 Conference VI Leopoldo Garcia–Colin Mexican Meeting on Mathematical and Experimental Physics, Colegio Nacional in MexicoCit, September 5 – 9.

2016 Conference Frontiers in Computational Chemistry, School of Chemistry of the National Autonomous University of Mexico (UNAM)in Mexico City will be held on August 24 and 25.

2016 Conference META16, the 7th International Conference on Metamaterials, Photonic Crystals and Plasmonics, Torremolinos – Malaga,Spain, from 25 to 28 July.

2016 Discussion Leader Gordon Research Conference: Noble Metal Nanoparticles June 19–24, Mount Holyoke College, South Hadley,MA.

2016 Conference Workshop in Nanotechnology and Advanced Materials CONACYT-CNR Italy, 11 – 15 April

2015 Conferencia Energy, Materials, and Nanotechnology, EMN Fall Meeting, from November 16 to 20, Las Vegas, Nevada.

2015 Conferencia Mexican Optics and Photonics Meeting, Leon Guanajuato, Mexico September 9–11.

2015 Conferencia 7o Taller Chile-Mexico sobre Magnetismo, Nanociencias y sus Aplicaciones, Arica Chile 3–7 Septiembre.

2015 Conferencia Spintronics 60, August 7–8, Cancun, QR, Mexico.

2015 Coloquio Enhancing mechanisms of optical activity of chiral molecules adsorbed in metallic nanoparticles, Air Force ResearchLaboratory, Materials & Manufacturing Directorate, Wright-Patterson Air Force Base, Dayton Ohio, 29 Mayo

2014 Conferencia 2014 Energy Materials Nanotechnology (EMN) Fall Meeting, from November 22 to 25, 2014 at Orlando, Florida.

2014 Tutorial Latin America Optics & Photonics Conference (LAOP) 16 - 21 November 2014, Cancun, Mexico.

2014 Conferencia 8th International Meeting on Photodynamics and Related Aspects, Oaxaca, Mexico, 26-31 October 2014.

2014 Conferencia XXIII INTERNATIONAL MATERIALS RESEARCH CONGRESS 2014, Simposium Materials Relevance in Fluctuation-inducedInteractions, Cancun, Mexico 17 – 21 August 2014.

2014 Conference Epioptics-13 in Erice, Italy July 2014, 26 - August 2014.

2013 Coloquio Optically Active Metal Nanoparticles en Leibniz Institute for Analytical Sciences -ISAS- e.V. in Berlin, Germany, September16

2013 Conferencia Plasmonics: Fundamentals and Applications en 10th International Conference on Optics of Surfaces and Interfaces(OSI 10) hosted in Chemnitz, Germany, September 8-13


2013 Conferencia Mapping Structural and Plasmonic Properties of Gold Nanoparticles en “2013 Progress in Electromagnetics ResearchSymposium”(PIERS 2013 Stockholm) Symposium Special Session Advanced Techniques in Nanoelectromagnetics Applications.Stockholm, Sweden, on August 12-15

2013 ConferenciaThe 4th Annual World Congress of NanoMedicine during June 5-7, Suzhou, China. Declinada

2012 Conferencia Second International Conference on Small Science (ICSS 2012), 16-19 December at Walt Disney World Swan andDolphin hotel, Orlando Florida, USA. Declinada

2012 Conferencia Plasmonic nanostructures and applications en Workshop within the PASI program on “Frontiers in Casimir Physics”,October 6-17, Ushuaia, Argentina

2012 Plenaria Plasmonics: Manipulating light at the nanoscale en el XXI IMRC, Cancun Mexico, August 12-17

2012 Conferencia EPIOPTICS-12, NANOLUM-3 24-29 July, International School of Solid State Physics, Erice Italia. Declinada.

2012 Conferencia Plasmonics and electromagnetic �eld enhancement in metal nanoparticles Simposio 1C ”Nanostructured Materialsand Nanotechnology.en el XXI IMRC, Cancun Mexico, August 12-17

2012 Conferencia Plasmonica: manipulando luz con nanopartıculas en Taller Binacional Mexico-Argentina en Nanotecnologıa, Junio,21-22

2012 Plenaria Plasmonics and electromagnetic �eld enhancement in metal nanoparticles en Nanomex 2012, Puebla, Puebla from Jun.11–13

2012 Conferencia Designing the Plasmonic Response of Metal Nanoparticles en Pan American Advanced Studies Institute (PASI) onComputational Materials Science for Energy Generation and Conversion held in Santiago, Chile from Jan. 9-20

2011 Conferencia Designing the Plasmonic Response of Metal Nanoparticles en First Meeting of the American Initiative on Metal Clustersand Nanoalloys, November 16 to 18, San Antonio Texas.

2011 Conferencia Quantum Calculations of Optical Activity in Chiral Nanostructures, Conference on Computational Physics, GlatinburgTennessee, USA, 30th October – 3rd November

2011 Lecturer Winter School J.J. Giambiagi on Nanophotonics at Departamento de Fisica de la Facultad de Ciencias Exactas de laUniversidad de Buenos Aires, July 18–22 Declinada.

2011 Plenaria Designing the plasmonic response of noble metal nanoparticles, Nanotech 8, Tuxtla Gutierrez Chiapas, May 23 –25

2011 Seminario Designing the plasmonic response of noble metal nanoparticles, Northwestern University, Materials Research Scienceand Engineering Center, January 20th

2010 Plenaria In�uence of morphology on the optical properties of metal nanoparticles, Molecular Modelling – 2010: Advances inBiomolecular and Materials Modelling, which will be held in Melbourne, Australia from the 28th November to 1st December

2010 Seminar Designing the plasmonic response of noble metal nanoparticles at University of Technology of Sidney, Australia, 23thDecember

2010 Seminar at School of Chemistry, The University of Melbourne, Australia, December 2nd, Declinada.

2010 Coloquio Designing the plasmonic response of noble metal nanoparticles, University of Notre Dame, Department of Chemistryand Biochemistry December 9th

2010 Coloquio Designing the plasmonic response of noble metal nanoparticles, Northwestern University, Materials Research Center,November 9th

2010 Plenaria at XXX Annual Meeting International Conference on Surfaces, Materials and Vacuum 2010, September 27 to October 1st,Mexico Declinada

2010 Coloquio Into the origin of optical activity of gold nanoparticles and carbon nanotubes, Ohio University , Department of Physicsand Astronomy October 14th

2010 Discussion Leader en la Gordon Research Conference: Noble Metal Nanoparticles, Preparation, Modeling and Applications June20-25, Mount Holyoke College, South Hadley, MA

2010 Conferencia Tuning surface plasmons in multishell metal nanoparticles, SPIE’s event Photonics Europe Brussels, Belgica 12 –16April

2010 Conferencia at BIT’s 1st Annual World Congress of Catalytic Asymmetric Synthesis-2010, May 19-21, Beijing, China. Declinada


2010 Conferencia International Conference on Nanomaterials: Synthesis, Characterization and Applications (ICN-2010) April 27- 29 atMahatma Gandhi University, Kottayam, Kerala, India. Declinada

2009 Conferencia Chirality at the Nanoscale, Optics of Surfaces and Interfaces VIII, Ischia, Italy 7 -11 September

2009 Conferencia Into the origin of optical activity of ligand-protected gold nanoparticles Symposium Protected Metallic Clusters,Quantum Wells and Metal-nanocrystal Molecules, American Chemical Society 238th National Meeting 16–20 August, WashingtonDC EU.

2009 Conferencia Academic situation in Mexico on Nanoscience and Nanotechnology, with emphasis on UNAM and REGINA, The �rstannual ICPCNanoNet workshop, June 1st, Praga, Republica Checa

2009 Conferencia Optically active nanoparticles Reunion Internacional Nanociencias, Monterrey 2009, Nuevo Leon. 19-22 Mayo

2009 Seminario Optical properties of nanoparticles Department of Physics & Astronomy, University of Texas at San Antonio, Texas, EU,Abril 14

2009 Seminario Optical Porperties of Nanoparticles en Department of Chemistry and Biochemistry, Windsor University, Ontario Canda,March 13

2008 Conferencia Plasmonics en International Workshop on Advanced Materials for Optoelectronics and Related Physics (AMORPHY),INAOE, Puebla, October 5-11

2008 Conferencia Optical circular dichroism of bare and passivated Au nanoclusters en International Symposium on Monolayer-Protected Clusters, Nanoscience Center, University of Jyvaskyla, Finland, September 12-13

2008 Conferencia Circular dichroism of nanotubes and gold clusers EPIOPTICS-10 International School of Solid State Physics, Erice-Sicily,20-27 June

2008 Seminario Surface Plasmon Resonances on Metal Nanoparticles, Air Force Research Laboratory, Materials & Manufacturing Di-rectorate, Wright-Patterson Air Force Base, Ohio, 25 Enero

2007 Conferencia Redes en nanotecnologıa, Encuentro Nano Mercosur 2007, 7 – 9 de agosto, Buenos Aires, Argentina. Organizadopor la Fundacion Argentina de Nanotecnologıa

2007 Conferencia Optical properties of nanoparticles, Celebrando a Carmen Varea, IFUNAM, Mexico, Noviembre 29-30

2007 Conferencia Surface plasmon resonances on metal nanoparticles, 2a Reunion Nacional de La DINANO, Boca del Rıo, Veracruz,Mexico, 30 y 31 de mayo y 1 de junio

2006 Seminario In�uence of geometry in the surface plasmon resonances of nanoparticles, INFM, Department of Physics, Universityof Rome Tor Vergata, Italia, 20 de enero

2006 Conferencia Plasmones de super�cie en nanopartıculas metalicas, Atomos, untos cuanticos y nanoestructuras, Simposio homenajea Sergio E. Ulloa, 18 de septiembre, Mexico D. F.

2006 Conferencia Surface plasmon resonances on metal nanoparticles, Trends on Novel Materials Workshop, 16-20 octubre, SantaMarta Colombia.

2005 Conferencia Optical properties of metallic nanoparticles, Scanning Probe Microscopy, Sensors, & Nanostructures, Cancun, Mexicodel 4 al 8 de junio

2005 Conferencia Recent results on nanocomposites, “Una platica con Harold Kroto, Premio Nobel de Quımica 1996”, IFUNAM, 21 deseptiembre

2005 Conferencia Presentation of REGINA-UNAM, “Una platica con Harold Kroto, Premio Nobel de Quımica 1996”, IFUNAM, 21 deseptiembre

2004 Conferencia Optical properties of chiral nanostructures, International Workshop on Nanoscience, Mexico D.F. 27 y 28 de mayo

2004 Conferencia Propiedades opticas de Nanoestructuras, Nanostructures Materials and Nanotecnology dentro IV Semanas Nacionalesde Cristalografıa, Leon Guanajuato, del 22-24 septiembre

2004 Conferencia Optical properties of nanoestructures, XII International Materials Research Congress dentro del simposio Nanostruc-tured Materials and Nanotechnology, Cancun Mexico, 22-26 de agosto

2004 Conferencia Propiedades opticas de nanoestructuras quirales, sesion de calculos teoricos del XXIV Congreso de la SociedadMexicana de Ciencia y Tecnologıa de Super�cies y Materiales, Riviera Maya, del 27 al 30 de septiembre


2003 Conferencia Casimir e�ect on nanoparticles Mini simposio homenaje a Ruben G. Barrera. Centro de Ciencias Fısicas, UNAM, 7 deabril

2001 Conferencia Rheological properties of suspensions, INTERNATIONAL MATERIALS RESEARCH CONGRESS: CANCUN, Trabajo realizadocon: R. Esquivel-Sirvent, y G. Ramırez.

2000 Seminario Substrate e�ects in the optical properties of spheroidal nanoparticles, CMSS Colloquium, Mayo, Ohio University.

1994 Seminario Optical properties of semiconductors surfaces: Si(111)-7×7, Seminario del programa de Materia Condensada y Cienciasde Super�cies, Ohio University, 26 de octubre

1993 Seminario Optical properties of 1D composites Seminario de Estructura de la Materia, Departamento de Fısica, Universidad deRoma II, Roma, Italia, 3 de junio

– Platicas invitadas nacionales

2017 Seminario Departamento de Fısica, Universidad de Sonora. Febrero 8.

2017 Charla Jovenes estudiantes de las escuelas: Prepa Tepito, BAU Atzcapozalco y BAU Teatro del Pueblo. Secretario de Educacion dela Ciudad de Mexico. Mexico. Enero 31.

2017 Panel NINASTEM PUEDEN: Red de Mentoras OCDE-Mexico para Promover el Espıritu STEM en las Ninas y Jovenes Mexicanas.OCDE-SEP. Mexico. Enero 9.

2016 Coloquio Instituto de Fısica “Grafeno Quiral”, 27 Octubre.

2016 Conferencia Mexican Academy of Science “Fısica en Ciencia y Humanismo II”, 24 – 26 August.

2016 Coloquio Actividad optica a escala nanometrica, Instituto de Fısica, Universidad Automona de San Luis Potosı, 2 de marzo

2015 Conferencia Luz a escala nanometrica, XV Semana de geologıa, Minerıa, Metalurgia y Materiales, Universidad Automona delEstado de Hidalgo, 9 de octubre

2015 Conferencia Luz a escala nanometrica, Programa Conferencias Premios de Investigacion de la Academia 2015, Junio 4.

2015 Conferencia Luz a escala nanometrica, Programa Conferencias Premios de Investigacion de la Academia 2015, Junio 4.

2015 Seminario Luz a escala nanometrica, Ano Internacional de la Luz, INAOE, Junio 10.

2015 Conferencia nanotecnologıa, presente y futuro GeneraciUn 58 de la Facultad de Ingenierıa de la UNAM, Mexico D.F. 24 de marzo.

2014 Magistral Plasmonica: luz a la nanoescala, XXIV Congreso Tecnico-Cientı�co del ININ-SUTIN, 3 de diciembre.

2014 Plenaria Plasmonica, campo cercano y espectroscopias aumentadas, CICATA Legaria, 16 de octubre.

2014 Plenaria Plasmonica: Manipulando luz a escala nanometrica., Congreso Nacional de Fısica, 5–10 de octubre.

2014 Coloquio Plasmonica, campo cercano y espectroscopias aumentadas, Instituto de Ciencias Fısicas, UNAM, 2 de abril

2014 Seminario Plasmonica, campo aumentado y espectroscopias, Seminario Sotero Prieto, IFUNAM, 29 de enero

2013 Conferencia Manipulando luz a escala nanometrica, Universidad Autonoma del Estado de Mexico en el marco de la semana deNanoquımica, Toluca, Mexico, 30 de octubre

2013 Seminario Nanopartıculas Metalicas Opticamente Activas, Seminario del XXIII Aniversario, IF-BUAP, 20 de septiembre

2013 Panelista Algunas tendencias en la Fısica: Analisis del estado del arte de la nanociencia mexicana, en Hacia donde va la Cienciaen Meexico, 17 abril Univ. de Guanajuato campus Leon.

2013 Seminario Con�guracion absoluta de nanotubos de carbono, Seminario Sandoval Vallarta, IFUNAM, 17 de mayo

2013 Seminario Plasmonica: Fundamentos y aplicaciones, 17 abril Univ. de Guanajuato campus Leon.

2013 Seminario Divisioon de Materiales Avanzados del Instituto Potosino de Investigacioon Cientı�ca y Tecnologica (IPICYT), 13 demarzo

2012 Seminario Programa de Ingenierıa Molecular (PIM), en el Instituto Mexicano del Petroleo (IMP), 9 de agosto

2012 Conferencia Grandes Retos del Siglo XXI, Difusion Cultural UNAM, 21–25 mayo Ciudad de Mexico


2012 Conferencia III CONGRESO NACIONAL DE CIENCIA E INGENIERIA EN MATERIALES, Merida, del 27 de Febrero al 2 de Marzo

2012 Seminario Dicroısmo circular optico de nanopartıculas, Seminario Sandoval Vallarta, IFUNAM, 27 de enero

2012 Conferencia Cuando el futuro de la nanotecnologıa nos alcance, Evento Ciencia y Sociedad, Academia Mexicana de Ciencias.Enero 18 al 20

2010 Coloquio Nanopartıculas opticamente activas, UAM-I, Junio

2010 Coloquio Nanopartıculas opticamente activas, CINVESTAV, Marzo

2010 Conferencia Magistral Nanociencia y nanotecnologıa, Avances de las Mujeres en las ciencias, humanidades y todas las disciplinas:II Congreso Nacional, Marzo

2009 Conferencia Nanopartıculas opticamente activas, 4o. Encuentro Internacional de Nanotecnologıa, Centro Universitario de losLagos, de la Universidad de Guadalajara, 27-29 Julio

2008 Conferencia Nanotecnologıa, Camara de Diputados del H. Congreso de la Union, 30 de septiembre

2007 Conferencia Comportamiento optico de partıculas en escala nanometrica, IV Encuentro de la participacion de la mujer en laCiencia, 24-25 mayo

2007 Seminario Propiedades opticas de nanopartıculas, Seminario Sandoval Vallarta, IFUNAM, 27 /04

2007 Conferencia Nanociencia y nanotecnologıa, Dıa de puertas abiertas del IFUNAM, 8 de noviembre

2007 Conferencia ¿Como se ven las nanopartıculas?, Coloquio del Posgrado en Ciencias Fısicas, 24/02

2007 Panelista Tecnologıas precursoras como fuente de conocimiento, empleo y competitividad: nanotecnologıa 4◦ seminario regionalde innovacion. Foro Consultivo Cientı�co y Tecnologico. Agosto 27, Toluca Edo. de Mexico

2007 Panelista El Desarrollo de la Nanociencia en Mexico, dentro del programa de la 2a Reunion Nacional de La DINANO, Boca delRıo, Veracruz, Mexico, 30 y 31 de mayo y 1 de junio

2006 Panelista El Futuro de la Fısica en el Instituto, Congreso Anual Interno, Octubre

2005 Panelista Identi�cation of potential areas for bi-national collaboration in nanoscience/nanotechnology, “Workshop on perspectivesfor bi-national collaboration on nanoscience”, May 19th, San Luis Potosı, S. L. P. Mexico

2004 Conferencia Propiedades opticas de nanoestructuras quirales, 3a. Reunion de Nanociencia y Nanotecnologıa, San Luis Potosı,Mexico 21-23 mayo

2004 Seminario Propiedades opticas de nanoestructuras Seminario Sotero Prieto-REGINA, IFUNAM, 23 de junio

2004 Seminario Propiedades opticas de nanopartıculas, Instituto de Ciencias Nucleares, 20 de octubre

2004 Conferencia Estudio de la quiralidad de nanotubos por medios opticos, XLVII Congreso Nacional de Fısica, Hermosillo Sonora,25-29 octubre

2003 Conferencia Fısica computacional de nanomateriales, Ceremonia-simposio para la inauguracion del nuevo cluster (ultra-�s),IFUNAM, 26 de noviembre

2003 Conferencia Observando atomos con luz, Una Mirada al Posgrado en Ciencias Fısicas, Fac. de Ciencias UNAM, 19 de junio

2003 Seminario Fuerzas dispersivas en sistemas a escala nanometrica Seminario Sotero Prieto, IFUNAM, 2 de julio

2003 Conferencia Observando atomos con luz, Escuela de Verano de Fısica, IFUNAM, 14 de julio

2003 Conferencia Fısica computacional de nanomateriales, Dıa de puertas abiertas del IFUNAM, 12 de noviembre

2003 Seminario Efecto casimir en nanopartıculas Seminario Sotero Prieto, IFUNAM, 9/04

2002 Seminario Fuerzas de Casimir entre una nanopartıcula y un substrato: mas alla de la aproximacion dipolar Taller Seminario deGravitacion y Fısica Cuantica, IFUNAM noviembre

2001 Seminario Efectos no lineales en propiedades reologicas de suspensiones, SEMINARIO MANUEL SANDOVAL VALLARTA, IFUNAM, 25mayo

2001 Seminario Carcaterizacion optica de nanopartıculas Seminario ”Fronteras de la Fısica”, Centro de Ciencias Fısicas, UNAM, 19septiembre

1998 Conferencia Calculos de primeros principios de las propiedades opticas de solidos, Escuela de otono de Quımica Computacional,DGSCA-UNAM, 3-27 noviembre


1998 Seminario Perdida de energıa electronica en sistemas anisotropicos, Seminario, Instituto de Fısica, BUAP, 6 noviembre

1997 Seminario Calculos microscopicos de las propiedades opticas de medios inhomogeneos, Seminario M. Sandoval Vallarta, IFUNAM,enero

1996 Seminario Dinamica Molecular y Propiedades Opticas de Cumulos de Silicio, Seminario de Estado Solido ”Sotero Prieto”, IFUNAM26 junio

1996 Seminario Estructura y propiedades opticas de cumulos de silicio, Seminario, Instituto de Fısica, BUAP, 13 septiembre

1995 Seminario Propiedades opticas de super�cies semiconductoras, Seminario de Sistemas Dinamicos y Complejos, IFUNAM, junio

1995 Seminario Super�cies de diamante, Seminario de Estudiantes Carlos Graef, IFUNAM, 6 julio

1994 Seminario Transiciones electronicas en Si(111) reconstruido 7 × 7, Seminario de Estado Solido ”Sotero Prieto”, IFUNAM, 24 deagosto

– Platicas de divulgacion

2016 Platica de divulgacion en el museo de la Luz, impartida el 26 de noviembre, dentro de la presentacion del numero de la revistaCiencia ”Y se hizo la luz”de la AMC

2015 Platica de divulgacion en el museo de la Luz, impartida el 8 de noviembre, dentro del programa Domingos en la Ciencia de laAMC

2013 Platica de divulgacion en el Dıa de Puertas Abiertas del IFUNAM, 15 de noviembre.

2012 Platica de divulgacion en el CCH Sur, impartida el 6 de septiembre. Dentro del programa de Fısica.

2009 Platica de divulgacion en la sede de Universum, impartida el 8 de noviembre, dentro del programa Domingos en la Ciencia dela AMC

2008 Platica de divulgacion en el programa de radio Imagen en la Ciencia FM 90.5. Entrevista 2 de diciembre. Nanotecnologıa.

2007 Platica de divulgacion en el programa de radio del Instituto Mexicano de la Radio (IMER), en el 660 de AM, Constructores delConocimiento, el 3 de diciembre

2007 Platica de divulgacion en el programa de radio en RADIO UNAM, en el 860 de AM, PERFILES, el 10 de diciembre

2005 Platica de divulgacion en la Escuela Nacional Preparatoria platel No. 1, impartida el 16 de febrero dentro del marco de actividadesdel Ano Internacional de la Fısica

2005 Platica de divulgacion en el Museo de la Luz, impartida el 9 de junio dentro del marco de actividades del Ano Internacional dela Fısica

2005 3 Platica de divulgacion en La Feria de la Fısica, impartidas el 25 y 27 de noviembre dentro del marco de actividades del AnoInternacional de la Fısica

2003 Platica de divulgacion en la sede del Centro de Extension Tacuba, impartida el 31 de mayo, dentro del programa Domingos enla Ciencia de la AMC

2003 Platica de divulgacion en el museo UNIVERSUM impartida el 24 de septiembre, dentro de la semana de la nanociencia y lananotecnologıa.

2003 Platica de divulgacion en el Museo Tecnologico de la CFE, impartida el 12 de octubre, dentro del programa Domingos en la Cienciade la AMC

2002 Platica de divulgacion en el Planetario de Morelia, Michoacan, impartida el 23 de noviembre, dentro del programa Domingos enla Ciencia de la AMC

2001 Platica de divulgacion en el Colegio Latino de Mexico (nivel preparatoria) impartida el 24 de enero, dentro del ciclo 100 anos dela Mecanica Cuantica

2001 Platica de divulgacion en el museo UNIVERSUM impartida el 4 de marzo, dentro del programa Domingos en la Ciencia.

2001 Platica de divulgacion en el Colegio de Bachilleres # 20 (nivel preparatoria) impartida el 8 de mayo, dentro del ciclo Jovenes ala Investigacion.

2001 Platica de divulgacion en el programa de radio UNAM, DESLINDE, el 9 de octubre


Presentaciones regulares (134)

— Trabajos en congresos internacionales . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 115— Trabajos en congresos nacionales . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19

La lista de estas presentaciones se encuentra al �nal del CV

PROYECTOS FINANCIADOS

Responsable (16)

2016 Transferencia de calor radiativa en sistemas plasmonicos, propuesta aprobada CONACYT No. 2015-02-1290.

2016/18 Assessment of Exchange-Correlation Functionals of the Description and Prediction of Electronic and Optical, AFOSR.

2015/17 Campo electromagnetico aumentado por medio de nanopartıculas metalicas, DGAPA-UNAM proyecto IN107615

2014/15 Investigation of Plasmon-Enhanced Visible Light Photoactivity of Titanium Dioxide Photoelectrodes for Solar Water Oxidation UCMEXUS-CONACYT Collaborative Research Grants

2013/14 Bases para la deteccion de moleculas de interes ambiental y biologico mediante espectroscopias opticas ultrasensibles por mediode la excitacion de plasmones de super�cie CONACyT SRE 2012-3 del fondo Secretaria de Relaciones Exteriores proyecto 191767

2013/15 Plasmonica de nanopartıculas metalicas para el aumento en la sensibilidad de espectroscopias opticas, CONACyT Ciencia Basicaproyecto 179454

2012/14 Actividad optica y plasmonica de nanopartıculas, DGAPA-UNAM proyecto IN104212

2011 Optics of Surfaces and Interfaces Congress, AFOSR,

2009/10 Surface Plasmon Resonances in 1D- and 2D- Arrays of Metal Nanoparticles for the Control of Enhanced Spectroscopies, AFOSR,

2008/10 Propiedades opticas de nanoestructuras quirales, DGAPA-UNAM proyecto IN106408 $ 527,890.00 pesos

2007/10 Propiedades opticas de nanopartıculas, CONACyT Ciencia Basica proyecto 48521

2004/07 Efecto casimir en materiales reales, DGAPA-UNAM proyecto IN101605

2002/05 Propiedades opticas de materiales usando metodos de primeros principios CONACyT Ciencia Basica proyecto 44306

1999/00 Estudio teorico de las propiedades opticas de nitruros, Fundacion “Ricardo J. Zevada”.

1997/99 Propiedades electronicas y opticas de super�cies y sistemas desordenados, CONACyT Ciencia Basica proyecto 3035PE

1995/96 First-Principles Calculations of Optical Properties of Semiconductor Surfaces, Ohio Supercomputer Center, Research Grant 700Resource Units in Cray Y/MP Computer.

Corresponsable (4)

2001/04 Propiedades opticas y elasticas de la materia granular: esparcimiento de luz y sonido, DGAPA-UNAM proyecto

1999/01 Efectos de campo local en sistemas con geometrıas restringidas, CONACyT Ciencia Basica

1997/00 Propiedades fısicas de sistemas inhomogeneos, DGAPA-UNAM

1996/97 Propiedades opticas y elasticas de medios inhomogeneos, CONACyT Ciencia Basica


Participante (12)

2016 Propiedades opticas y mecanicas del grafeno, IFUNAM.

2016 Transferencia de calor radiativa en nanoestructuras, IFUNAM

2016 Desarrollo y fortalecimiento del Lab. de nanofotonica avanzada, CONACYT 268414 Proyecto de infraestructura

2013 Detector de molecula individual con resolucion atomica acoplado a un sistema de espectroscopia Raman aumentado por punta,CONACYT 204855 Proyecto de infraestructura.

2012 Estudio de quiralidad y plasmonica a nivel atomico y molecular usando el STM y aumento de espectroscopıa Raman por punta(TERS) a 5K en UHV, CONACyT.

2004/07 Efecto casimir en materiales reales, Financiado por CONACyT. (R. Esquivel-Sirvent).

2004 Propiedades opticas de nanoestructuras, Proyecto VIEP-BUAP II 193/EXC/G. (L. Meza-Montes)

2002/05 Propiedades electronicas de sistemas semiconductores de baja dimensionalidad: Nanoalambres y espintronica en puntos cuanti-cos, CONACYT 36764-E. (L. Meza-Montes)

1999/04 Laboratorio de simulacion de sistemas de muchos cuerpos: de atomos a materia condensada, Financiado por CONACyT. Enero1999 a diciembre 2004.

2001/02 Alambres atomicos adsorbidos sobres sustratos semiconductores, Programa de colaboracion UNAM-BUAP. (L. Meza-Montes)

2001/02 Propiedades electronicas de sistemas semiconductores de baja dimensionalidad: Nanoalambres y espintronica en puntos cuanti-cos, VIEP-BUAP II16I01. (L. Meza-Montes)

1999/01 Efectos de acoplamiento y no linealidad en ondas sısmicas, CONACyT.

FORMACION DE RECURSOS HUMANOS

Cursos Docentes (53)

Cursos regulares de licenciatura . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26Cursos regulares en el Posgrado en Ciencias Fısicas, UNAM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14Cursos regulares impartidos como ayudante en Facultad de Ciencias, UNAM. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7Cursos especiales y de verano . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6TOTAL DE CURSOS IMPARTIDOS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .53

NIVEL CURSO IMPARTIDO No. VECES SEMESTRE(S)Posgrado Taller de Mecanica Estadıstica 1 (98)Posgrado Estado Solido 4 (2000, 06,08, 12-2)Posgrado Electrodinamica Clasica 3 (99, 2001, 04)Posgrado Fısica Computacional 1 (2002)Posgrado Propedeutico Mec. Cuantica 1 (1999)Posgrado Fısica de Nanomateriales 1 (2007-2)Posgrado Mecanica Cuantica I 3 (2013-1, 2013-2, 2014-2)Licenciatura Fısica Teorica II: Termodinamica 1 (92)Licenciatura Introduccion al Estado Solido 3 (97-I, 97-II, 99)Licenciatura Laboratorio de Fısica Clasica II COF 1 (99)Licenciatura Temas Selectos de Estado Solido 1 (99)Licenciatura Fısica Moderna III 1 (2000)Licenciatura Fısica Teorica III: Electromagnetismo 1 (2001)Licenciatura Fısica Computacional 8 (2002, 2003, 2004, 2005)Licenciatura Fısica Computacional 1 (10-1)Licenciatura Fısica Clasica I: mecanica 1 (2002)Licenciatura Laboratorio II de Ingenierıa Fısica 1 (09-2)


Licenciatura Propedeutico Fısica Computacional 1 (1999)Licenciatura Fısica atomica y materia condensada 1 (2010-1)Licenciatura Introduccion a la Fısica Cuantica 1 (2014-1)Licenciatura Electromagnetismo I 2 (14-2, 15-2)Licenciatura Fısica Contemporanea 1 2016-1Licenciatura Estado Solido 1 (2016-2)Especial Propiedades opticas de super�cies cristalinas 1 (96)Especial Fısica Computacional 1 (2001)Especial Fısica de Nanomateriales 1 (2002)Especial Fısica del Edo. Solido en Fıs. Contempo. 1 (08-1)Especial Nanociencia en Fıs. Contempo. 2 (09-1 y 10-1)Ayudante Fısica Clasica I: Mecanica 1 (89)Ayudante Fısica General 4 (90-I, 90-II, 91-I, 91-II)Ayudante Fısica Teorica II: Termodinamica 1 (90)Ayudante Mecanica Estadıstica 1 (93)TOTAL 53

Tesis y posdoctorantes

GRADO TERMINADAS EN PROCESOLicenciatura 3 1Maestrıa 6 1Doctorado 5 1Posdoctorado 5 3TOTAL 19 6

– Finalizados (19)

2015 Giuseppe PirruccioPodoctorado 03/2015 – 10/2015Tema de investigacion: Plasmonic metal nanoparticles and its application to Tip-enhanced Raman spectroscopy: theory andexperimentsPublicaciones (1): en proceso (2016)Situacion actual: Investigador Asociado C, IFUNAM

2015 David Becerril RodrıguezMaestrıa Posgrado en Ciencias Fısicas UNAMTıtulo de reporte: Adsorbcion de SCH3 sobre nanopartıculas de plata: dependencia del tamano. Opcion por artıculo de investi-gacion.Fecha de examen: 23 de enero 2015.Publicaciones(1): J. Phys. Chem C (2015)Situacion actual: Estudiante de doctorado PCF-UNAM en el grupo de Cecilia Noguez

2014 Francisco J. Hidalgo MorenoDoctorado Posgrado en Ciencias Fısicas UNAM.Tıtulo de tesis: Morfologıa y actividad optica en nanopartıculas metalicas con ligandos. Un estudio de primeros principios.Fecha de examen: 14 de marzo 2014Publicaciones (5): J. Phys. Chem. Letters (2011), ACS Nano (2013), Nanoscale (2014), Chirality (2014), Nanoscale (2016)Situacion actual: Estancia posdoctoral en el CIN2: Centre dInvestigacio en Nanociencia i Nanotecnologia (CSIC-ICN), de la Univer-sidad Autonoma de Barcelona, SNI nivel I

2013 Jirı BeranekEstancia de Maestrıa del Physical Engineering and Nanotechnology ProgramBrno University of Technology, Czech RepublicTıtulo de tesis: Surface plasmon resonances on colloidal nanoparticlesEstancia: 1 de marzo al 31 septiembre 2012.


Publicaciones(1): J. Phys. Chem. C. (2014)Se graduo con el trabajo realizado en Mexico bajo mi direccion.

2012 Alı Michel Angulo MartınezMaestrıa Posgrado en Ciencias Fısicas UNAMTıtulo de tesis: Intensi�cacion del campo electromagnetico en nanoestructuras metalicasFecha de examen: 26 septiembre de 2012.Publicaciones (1): J. Phys. Chem. Lett. (2011)Situacion actual: estudiante de doctorado en el PCF-UNAM.

2011 Ariadna Sanchez CastilloPosdoctorado 09/2008 – 05/2011Tema de investigacion: Actividad optica de nanopartıculas quiralesPublicaciones (4): Eur. Phys. J. D (2009), J. Am. Chem. Soc. (Communication) (2010), J. Phys. Chem. C (2010), J. Phys. Chem. Lett.(2011).Situacion actual: Prof. Inv. Titular C, Univ. Autonoma de Hidalgo Apan, SNI nivel I

2009 Francisco J. Hidalgo MorenoMaestrıa Posgrado en Ciencias Fısicas UNAM.Tıtulo de tesis: Actividad optica de nanopartıculas de oro puras y pasivadasFecha de examen: 19 marzo de 2009.Publicaciones (4): J. Phys. Chem C (2008), Phys. Rev. B (2009), Eur. Phys. J. D (2009), y Physica Status Solidi (b) (2010)Situacion actual: Estancia posdoctoral en el IN2: Centre dInvestigacio en Nanociencia i Nanotecnologia (CSIC-ICN), de la UniversidadAutonoma de Barcelona, SNI nivel I

2008 Ariadna Sanchez CastilloDoctorado en Ciencias de Materiales, Instituto de Fısica, Univ. Autonoma de PueblaTıtulo de tesis: Propiedades Opticas de Nanotubos Quirales.Fecha de examen: 16 de junio de 2008.Publicaciones(5): Phys. Rev. B (2006 y 2009), J. Phys. Chem. C(2010) y 2 memorias.Situacion actual: Prof. Inv. Titular C, Univ. Autonoma de Hidalgo Apan, SNI nivel I

2007 Ana Lilia Gonzalez RonquilloDoctorado Posgrado en Ciencias Fısicas UNAM. 2007Tıtulo de tesis: Propiedades opticas de nanopartıculas metalicasFecha de examen: 17 octubre de 2007.Publicaciones (5): Phys. Chem. B (2005), Nanotech (2006), J. Computational & Theor. Nanoscience (2007), Physica Status Solidi (c)(2007), J. Phys. Chem. C (2008)Premio Weizmann en Ciencias Exactas 2008, Academia Mexicana de Ciencias.Premio a la mejor tesis doctoral en el area de Ciencia e Ingenierıa de Materiales del certamen IIM-UNAM 2008Situacion actual: Porfesora-Investigadora Titular A, IF-BUAP, SNI nivel I

2007 Alı Michel Angulo MartınezLicenciatura en Fısica Facultad de Ciencias, UNAMTıtulo de tesis: Estructura atomica y morfologıa de nanopartıculas de plataFecha de examen: 17 de agosto de 2007.Publicaciones(1): J. Phys. Chem. A (2008)Situacion actual: estudiante de doctorado en el PCF-UNAM.

2005 Xochitl Lopez LozanoDoctorado en Ciencias Fısica, Instituto de Fısica, Univ. Autonoma de PueblaTıtulo de tesis: Propiedades electronicas y opticas de la super�cie InAs(110) y de los alambres atomicos de In/Si(111).Fecha de examen: 22 de julio 2005.Publicaciones (6): Phys. Status Soilidi (c) (2003), Rev. Mex. de Fıs. (2005), Phys. Rev. B (2005 y 2006), 2 memoriasPremio a la mejor tesis doctoral en el area de Ciencia e Ingenierıa de Materiales del certamen IIM-UNAM 2006Situacion actual: Associate Professor en la Universidad de Texas en San Antonio, EUA, Nivel I del SNILa Dra. Lilia Meza Montes del IF de la BUAP fungio como asesora interna.

2005 Guillermo P. Ortiz FernandezPosdoctorado 06/2004 – 06/2005Asesorıa durante su estancia de posdoctoral con Ruben G. BarreraTema de investigacion: Propiedades opticas de nanopartıculas metalicas en funcion de su morfologıa


Publicaciones (1): J. Phys. Chem. B (2005)Situacion actual: Professor en la Univ Nacl Nordeste, Dept Fis, Fac Ciencias Exactas Nat & Agrimensura, Corrientes, Argentina (en2005 fue SNI nivel I)

2005 Carlos Enrique Roman VelazquezPosdoctorado 01/2003 – 10/2005Tema de investigacion: Fuerzas de Casimir y Dicroısmo CircularPublicaciones (9): J. Phys. Chem. B (Letter) (2003), Phys. Rev. A (2004), Phys. Rev. B (2004, 2006 y 2006), EuroPhysics Letters(2004), J. Phys. A (2006) y 2 memorias (2003 y 2004)Situacion actual: Profesor de Asignatura en FC-UNAM (entre 2000 y 2006 fue SNI nivel I).

2004 Geonel Rodrıguez GattornoPodoctorado 06/2004 – 12/2004Tema de investigacion: Sıntesis, microscopıa y propiedades opticas de nanopartıculas de plataPublicaciones(1): J. Phys. Chem. B (2005)Situacion actual: Investigador 3A del CINVESTAV, Merida, SNI nivel II

2004 Ana Lilia Gonzalez RonquilloMaestrıa Posgrado en Ciencias Fısicas UNAM.Tıtulo tesina: Propiedades opticas de nanopartıculas metalicas.Fecha de examen: Examen General de Conocimientos: enero 2004.Fecha de examen: de candidatura, diciembre 2004.

2003 Ivan Orencio Sosa PerezMaestrıa Posgrado en Ciencias Fısicas UNAMTıtulo de tesis: Propiedades opticas de nanopartıculas de formas arbitrarias.Fecha de examen: 28 de enero de 2003.Publicaciones (2): J. of Physical Chemistry B (2003), 1 memoriaSituacion actual: Profesor de TC de la Universidad de la Ciudad de MexicoCodireccion con Ruben G. Barrera, IFUNAM

2002 Alejandro Valderrama ZaldivarLicenciatura en l Fısica Facultad de Ciencias, UNAMTıtulo de tesis: Pruebas de polarizacion en nanotubos simulados con y sin quiralidadFecha de examen: 4 de octubre de 2002

2000 Martın Solıs PerezLicenciatura en Fısica Facultad de Ciencias, UNAMTıtulo de tesis: Calculos de estructura electronica de la super�cie de germanio reconstruida en su cara (111)Fecha de examen: 13 de julio de 2000Publicaciones (1): Revista Cientı�ca TIP (2000)

1999 Carlos Enrique Roman VelazquezDoctorado en Ciencias de Materiales, CISECETıtulo de tesis: Calculo del tensor dielectrico efectivo en medios anisotropicos granulados.Fecha de examen: 21 de septiembre de 1999.Publicaciones (4): phys. status solidi (a) (1999), Physical Review B (2000) y Physica B (2000), 1 memoria.Situacion actual: Profesor de Asignatura en FC-UNAM (en 2000 y 2006 fue SNI nivel I). Codireccion con Ruben G. Barrera IFUNAM

– En proceso (6)

2016 Cercis Morera BoadoPodoctorado 10/2016 – vigenteInstituto de Fısica UNAM

2016 Francisco Sanchez OchoaPodoctorado 08/2016 – vigenteInstituto de Fısica UNAM

2016 Francisco J. Hidalgo MorenoPodoctorado 08/2016 – vigente

Instituto de Fısica UNAM

2016 Humberto Batiz GuerreroLicenciatura 04/2016 – vigenteFacultad de Ciencias UNAM (20 % de avance)Fecha tentativa de examen: enero 2017

2015 David Becerril RodrıguezDoctorado 04/2016 – vigenteInstituto de Fısica, Posgrado en Ciencias Fısicas UNAM (30


% de avance)Publicaciones: 1 en preparacionFecha tentativa de examen: enero 2018

2011 Martın Ernesto Figueroa DelgadilloMaestrıa 08/2011 – vigente

Instituto de Fısica, Posgrado en Ciencias Fısicas UNAM (40% de avance)Fecha tentativa de examen: no tiene

Participacion en examenes de grado como sinodal (36)

1. Carlos Ignacio Mendoza RuizExamen de grado: Doctor en Ciencias, Facultad de Ciencias, UNAM,1999.

2. Susana OrozcoExamen de grado: Doctora en Ciencias, Facultad de Ciencias,UNAM, 1999.

3. Catalina Lopez BastidasExamen de grado: Doctora en Ciencias, Facultad de Ciencias, UAEMorelos, 2000.

4. Jose Antonio Sanchez MondragonExamen de grado: Maestro en Ciencias, Facultad de Ciencias,UNAM, 2001.

5. Jorge Alejandro Reyes EsquedaExamen de grado: Doctor en Ciencias, Facultad de Ciencias, UNAM,2001.

6. Jorge Enrique Mejıa SanchezExamen de grado: Doctor en Ciencias, Centro de Investigacionesen Optica (CIO), 2001.

7. Marco Antonio IglesiasExamen de grado: Licenciatura en Fısica, Facultad de Ciencias,UNAM, febrero 2004.

8. Samuel E. Baltazar RojasExamen de grado: Maestrıa en Ciencias Aplicadas, IPICYT, 9 dejulio de 2004.

9. Luis Enrique Dıaz SanchezExamen de grado: Maestrıa en Ciencias Fısica, Posgrado en Cien-cias Fısicas, UNAM, 8 de febrero del 2005.

10. Jose Luis Cardoso CortesExamen de grado: Doctor en Ciencias Fısica, Posgrado en CienciasFısicas, UNAM, 14 de febrero del 2005.

11. Amparo Elizabeth Cano BasaveExamen de grado: Licenciatura en Fısica, Facultad de Ciencias,UNAM, noviembre 2005.

12. Marıa Andrea Gutierrez CamposCandidatura: Doctor en Ciencias Fısica Posgrado en Ciencias Fısi-cas, UNAM, 6 de julio del 2006.

13. Amador BautistaExamen de grado: Licenciatura en Fısica, Facultad de Ciencias,UNAM, agosto 2006.

14. Jorge Amın Seman H.Examen de grado: Licenciatura en Fısica, Facultad de Ciencias,UNAM, septiembre 2006.

15. Laura Elena Rosales ZarateCandidatura: Doctor en Ciencias Fısica, Posgrado en Ciencias Fısi-cas, UNAM, 14 de noviembre del 2006.

16. Giacomo Bonfanti EscaleraSeminario de titulacion: Ingenierıa Fısica, Universidad Iberoame-ricana, 7 de diciembre del 2006.

17. Edahı Gutıerrez ReyesCandidatura: Doctor en Ciencias Fısica, Posgrado en Ciencias Fısi-cas, UNAM, 17 de mayo del 2007.

18. Hector Gabriel Silva PereyraCandidatura: Doctor en Ciencias Fısica, Posgrado en Ciencias Fısi-cas, UNAM, 26 de junio del 2007.

19. Alfredo Augusto Guevara GarcıaExamen de grado: Doctor en Ciencias Quımicas, Posgrado en Cien-cias Quımicas, UNAM, 10 de agosto del 2007.

20. Lirio Euridice Aparicio ServinCandidatura: Doctor en Ciencias Fısica, Posgrado en Ciencias Fısi-cas, UNAM, 31 de julio del 2007.

21. Ariadna Blanca RomeroCandidatura: Doctor en Ciencias Fısica, Posgrado en Ciencias Fısi-cas, UNAM, 2 de agosto del 2007.

22. Flavio Fernando Contreras TorresExamen de grado: Doctor en Ciencias Quımicas, Posgrado en Cien-cias Quımicas, UNAM, 10 de septiembre del 2007.

23. Daniel J RossExamen de grado: Doctor en Fısica (Ph. D.) Departamento de Fısi-ca, Universidad de Windsor, Ontario Canada, 13 de Marzo de 2009.

24. Orlando Hernandez CristobalCandidatura: Doctor en Ciencia e Ingenierıa de materiales, Pos-grado en Ciencia e Ingenierıa de materiales, UNAM, 14 de mayodel 2009.

25. Roberto Mejıa OlveraExamen de grado: Maestro en Ciencia e Ingenierıa de materiales,Posgrado en Ciencia e Ingenierıa de materiales, UNAM, en revision2009.

26. Adair Chavez RovegliaExamen de grado: Licenciatura en Fısica, Facultad de Ciencias,UNAM, noviembre 2010.

27. Jose Concepcion Torres GuzmanExamen de grado: Doctor en Ciencias (Fısica), Univ. Autonoma delEstado de Morelos, noviembre, 2010

28. Daniel Cruz DelgadoExamen de grado: Maestro en Ciencia (Fısica), Posgrado en CienciaFısicas, UNAM, 10 de septiembre 2012.

29. Gustavo Roberto Perez LemusExamen de grado: Licenciatura en Fısica, Facultad de Ciencias,UNAM, 12 febrero 2013.

30. Sergio Alberto Sabinas HernandezCandidatura: Doctor en Ciencias Fısicas, Posgrado en Ciencias eIngenierıa de Materiales, UNAM, Instituto de Fısica, UNAM, 20 denoviembre 2014.

31. Jesus Castrejon FigueroaExamen de grado: Licenciatura en Fısica, Facultad de Ciencias,UNAM, enero 2015.


32. Jose Angel Castellanos ReyesExamen de grado: Licenciatura en Fısica, Facultad de Ciencias,UNAM, agosto 2015.

33. Jonathan Guerrero SanchezExamen de grado: Doctor, Posgrado en Ciencia e Ingenierıa deMateriales, Instituto de Fısica, BUAP, noviembre 2015

34. Ulises Torres Herrera

Candidatura: Doctor , Posgrado en Ciencias Quımicas, UNAM, Fc.Quımicas, UNAM, 26 de mayo 2016.

35. Selene Rubı Islas SanchezExamen de grado: Doctor, Posgrado en Ciencias Quımicas, UNAM,Fc. Quımicas, UNAM, 2016.

36. Carlos Alberto Ramrez MedinaProtocolo: Doctorado, Posgrado en Ciencias Fısicas, UNAM, Institu-to de Fısica, UNAM, 20 de noviembre 2016.

Participacion en examenes generales y predoctorales (6)

37. Jorge Fernando Camacho PerezExamen General de ConocimientosJunio 1998. Facultad de Ciencias, UNAM.

38. Jorge Fernando Camacho PerezExamen General de ConocimientosEnero 1999. Facultad de Ciencias, UNAM.

39. Comite del examen de diagnostico para ingresar al Posgrado enCiencias Fısicas de la UNAM (1999).Se examinaron 14 alumnos.

40. Predoctoral de Electrodinamica Clasicapresentaron examen 8 estudiantesEnero de 2003.

41. Predoctoral de Electrodinamica Clasicapresentaron examen 10 estudiantesJulio de 2004.

42. Predoctoral de Electrodinamica Clasicapresentaron examen 15 estudiantesEnero de 2009.


PRODUCCION CIENTIFICA

Tabla de publicaciones

REVISTA EN # FACTOR DE 1er AUTOR CON ESTUDIANTES PORJOURNAL OF CITATION REPORT (JCR) ARTICULOS IMPACTO∗ O UNICO Y/O POSDOCS INVITACIONNature Nanotechnology 1 35.267Chemical Society Reviews 1 33.383 1 1ACS Nano 1 13.334 1Journal American Chemical Society 1 13.038 1Journal of Physical Chemistry Letters 2 8.539 1 2 1Nanoscale 2 7.760 2Physical Review Letters 1 7.645 1Journal of Materials Chemistry C 1 5.066Journal of Physical Chemistry C 8 4.509 1 5 1Physical Review B 14 3.718 5 7Journal of Physical Chemistry B 3 3.187 3Applied Surface Science 1 3.150Optics Express 1 3.148Journal of Chemical Physics 2 2.894Journal of Physical Chemistry A 2 2.883 1 1Physical Review A 1 2.765 1EuroPhysics Letters (EPL) 1 2.229 1 1Optical Materials 1 2.183 1 1Plasmonics 1 2.146 1Superlattices and Microstructures 1 2.117 1Journal of Applied Physics 1 2.101Chirality 1 2.025 1 1Journal of Physics A 1 1.933Surface Science 2 1.931 2Physica A 1 1.785 1J. Comp. & Theo. Nanoscience 1 1.666 1 1Physica Status Solidi (a) 2 1.648 1 1Physica Status Solidi (b) 3 1.522 1 1 1Physica B 1 1.352 1European Physical Journal D 2 1.208 1Revista Mexicana de Fısica 1 0.371 1SUBTOTAL 62 †4.721 18 31 8

NO JCRPhysica Status Solidi (c) 2 2Il Vuoto 1 1TIP Revista Esp. C. Quımicas-Biologicas 2 1 1 1SUBTOTAL 5 2 3 1

MEMORIAS Y CAPITULOSMRS Symposium Proceedings 7 2 4Memorias en extenso con arbitraje 5 2 2Memorias en espanol en extenso con arbitraje 6 4Capıtulos en Libros 6 6 6Divulgacion 3 2 2SUBTOTAL 27 11 10 8

TOTAL 94 †4.721 31 44 17

∗Tomados del Science Citation Index (SCI) Journal Citation Reports 2015. †Factor de impacto promedio.


Portadas

(1) (2) (3)

(4) (5)

(1) Artıculo [67] Journal of Physical Chemistry C (Feature Article) 111 (10) 3806 – 3819 (2007)

(2) Artıculo [32] Physica Status Soildi (c) 4 (11), 4118 – 4126 (2007)

(3) Artıculo [82] Journal of Physical Chemistry Letters 2 1038 – 1044 (2011)

(4) Capıtulo [27] libro Complex-Shaped Metal Nanoparticles: Bottom-Up Syntheses and Applications, (2012)

(5) Artıculo [90] Physica Status Solidi b 252 56–71 (2015)

Lista de publicaciones (94)

Los trabajos con estudiantes y posdocs bajo mi direccion durante su formacion se muestran sus nombres con letras gruesas

– Revistas indizadas JCR con estricto arbitraje

94. How to Control Optical Activity in Organic-Silver Hybrid Nanoparticles,Francisco Hidalgo & Cecilia NoguezNanoscale 8 (30), pp. 14457-14466 (2016); DOI: 10.1039/C6NR02372J

http://pubs.rsc.org/en/content/articlepdf/2014/NR/C6NR02372J?page=search


93. Chiral Atomically Thin Films,Cheol-Joo Kim, A. Sanchez-Castillo, Zack Ziegler, Yui Ogawa, Cecilia Noguez, & Jiwoong ParkNature Nanotechnology 11, 520–524 (2016); doi:10.1038/nnano.2016.3

92. Plasmonic Response of Nested Nanoparticles with Arbitrary Geometry,Rafael Dıaz, Raul Esquivel-Sirvent & Cecilia NoguezJournal of Physical Chemistry C 120 (4), pp 2349–2354 (2016); DOI: 10.1021/acs.jpcc.5b10109

91. Adsorption of a Methylthio Radical on Silver Nanoparticles: Size Dependence,David Becerril & Cecilia NoguezJournal of Physical Chemistry C 119 (20), pp 10824–10835 (2015); DOI: 10.1021/jp509727q

90. Plasmonics of multifaceted metallic nanoparticles, �eld enhancement and TERS,Cecilia Noguez, C.J. Villagomez & A.L. GonzalezPhysica Status Solidi B 252, 56–71 (2015)– Al artıculo le dieron la portada del numero de la revista –

89. Ab initio electronic circular dichroism of fullerenes, single-walled carbon nanotubes and ligand-protected metal nanoparticles,Cecilia Noguez & Francisco HidalgoChirality 26 (9), 553 –562 (2014)

88. Size, Shape, Stability and Color of Plasmonic Silver Nanoparticles,Ana Gonzalez, Cecilia Noguez, Jiri Beranek, Amanda BarnardJournal of Physical Chemistry C 118 (17), pp 9128–9136 (2014).

87. Metallic in�uence on the atomic structure and optical activity of ligand-protected nanoparticles: a comparison between Ag andAu,Francisco Hidalgo, Cecilia Noguez & M. Olvera de la CruzNanoscale 6 (6), 3325 - 3334 (2014) DOI: 10.1039/C3NR06202C

86. Mapping the Structural and Optical Properties of Anisotropic Gold Nanoparticles,Ana L. Gonzalez, Cecilia Noguez & Amanda S. BarnardJournal of Materials Chemistry C 1(18), 3150 - 3157 (2013)

85. Optical Activity of Achiral Ligand SCH3 Adsorbed on Achiral Ag55 Clusters: Relationship between Adsorption Site and CircularDichroism,Francisco Hidalgo & Cecilia NoguezACS Nano 7, 513 – 521 (2013) DOI: 10.1021/nn3046083

84. Map of the Structural and Optical Properties of Gold Nanoparticles at Thermal Equilibrium,Ana L. Gonzalez, Cecilia Noguez & Amanda S. BarnardJournal of Physical Chemistry C 116, 14170 –14175 (2012)

83. Electromagnetic Field Enhancement at the Edge of Metal Nanostructures,Ali Angulo, Cecilia Noguez & George C. SchatzJournal of Physical Chemistry Letters 2, 1978–1983 (2011)

82. The Role of Morphology in the Enhanced Optical Activity of Ligand-Protected Metal Nanoparticles,Cecilia Noguez, Ariadna Sanchez-Castillo & Francisco HidalgoArtıculo por invitacion en Journal of Physical Chemistry Letters 2 1038 – 1044 (2011).– Al artıculo le dieron la portada del numero de la revista –

81. Designing the plasmonic response of shell nanoparticles: spectral representation,Carlos E. Roman-Velazquez & Cecilia NoguezJournal of Chemical Physics 114(4), 044116-1 – 044116-14 (2011).– Seleccionado por el Virtual Journal of Nanoscale Science & Technology, 23, February 7, 2011 published by the American Instituteof Physics and the American Physical Society –

80. Understanding optical activity in single-wall carbon nanotubes from �rst-principles studiesAriadna Sanchez-Castillo & Cecilia NoguezJournal of Physical Chemistry C114(21), 9640 – 9644 (2010)

79. On the origin of the optical activity displayed by chiral-ligand-protected metallic nanoclusters,Ariadna Sanchez-Castillo, Cecilia Noguez & Ignacio L. GarzonJournal of the American Chemical Society (Communication) 132, 1504–1505 (2010).

http://www.nature.com/nnano/journal/vaop/ncurrent/full/nnano.2016.3.html

http://pubs.acs.org/doi/pdf/10.1021/acs.jpcc.5b10109

http://pubs.acs.org/doi/abs/10.1021/jp509727q

http://onlinelibrary.wiley.com/doi/10.1002/pssb.201350416/abstract


http://onlinelibrary.wiley.com/doi/10.1002/chir.22348/abstract

http://pubs.acs.org/doi/abs/10.1021/jp5018168

http://pubs.rsc.org/en/content/articlelanding/2014/nr/c3nr06202c#!divAbstract

http://pubs.rsc.org/en/content/articlelanding/2014/nr/c3nr06202c#!divAbstract

http://pubs.rsc.org/en/content/articlelanding/2013/tc/c3tc30313f

http://pubs.acs.org/doi/abs/10.1021/nn3046083

http://pubs.acs.org/doi/abs/10.1021/nn3046083


http://pubs.acs.org/doi/abs/10.1021/jz200825g

http://pubs.acs.org/articlesonrequest/AOR-GwdRkahXQTDJZIr7rtjp

http://pubs.acs.org/action/showLargeCover?issue=357933480

http://jcp.aip.org/resource/1/jcpsa6/v134/i4/p044116_s1


http://pubs.acs.org/doi/abs/10.1021/ja907365f


78. Optically active nanoparticles: fullerenes, carbon nanotubes, and metal nanoparticlesFrancisco Hidalgo & Cecilia NoguezPhysica Status Solidi B. 247, 1889–1897 (2010).

77. E�cient First-Principles Method for Circular Dichroism of Nanostructures,Francisco Hidalgo, Ariadna Sanchez-Castillo & Cecilia Noguez,Physical Review B 79, 075438 (2009).– Seleccionado por el Virtual Journal of Nanoscale Science & Technology, 19, March 9, 2009 published by the American Instituteof Physics and the American Physical Society –

76. Theoretical Study of Surface Plasmon Resonances in Hollow Gold-Silver Double-shell Nanostructures,Carlos E. Roman-Velzquez, Cecilia Noguez & Jin Z. ZhangArtıculo por invitacion: Journal of Physical Chemistry A 113 4068 – 4074 (2009).

75. First-principles calculations of circular dichroism of bare and ligand-protected gold nanoparticles,Francisco Hidalgo, Ariadna Sanchez-Castillo, Ignacio L. Garzon & Cecilia Noguez,Eur. Phys. J. D 52, 179 – 182 (2009).

74. Optically active nanoparticles,Cecilia Noguez & Ignacio L. Garzon.Artıculo por invitacion: Chemical Society Reviews 38, 757 – 771 (2009).

73. Intrinsic Chirality in Bare Gold Nanoclusters: The Au−34 case,Itzel E. Santizo, Francisco Hidalgo, Luis A. Perez, Cecilia Noguez, & Ignacio L. Garzon,Journal of Physical Chemistry C 112, 17533 – 17539 (2008)

72. Plasmonic Optical Properties and Applications of Metal Nanostructures,Jin Z. Zhang & Cecilia NoguezArtıculo por invitacion: Plasmonics 4, 127 – 150 (2008).

71. Atomic structure of small and intermediate size silver nanoclusters,Ali M. Angulo & Cecilia NoguezJournal of Physical Chemistry A 112, 5834 – 5838 (2008).

70. Optical properties of elongated noble metal nanoparticles,Ana L. Gonzalez, J. A. Reyes-Esqueda, & Cecilia NoguezJournal of Physical Chemistry C 112, 7356 – 7362 (2008).

69. Large optical birefringence by anisotropic silver nanocomposites,J. A. Reyes-Esqueda, C. Torres-Torres, J. C. Cheang-Wong, A. Crespo-Sosa, L. Rodrıguez-Fernandez, Cecilia Noguez, A. Oliver,Optics Express 16, 710 – 717 (2008).

68. In�uence of Morphology on the Optical Properties of Metal NanoparticlesAna L. Gonzalez & Cecilia NoguezArtıculo por invitacion: J. Computational & Theoretical Nanoscience 4, 231 — 238 (2007).

67. Surface Plasmons on Metal Nanoparticles: The In�uence of Shape and Physical EnvironmentCecilia NoguezArtıculo por invitacion: Journal of Physical Chemistry C (Feature Article) 111 (10) 3806 – 3819 (2007).– Al artıculo le dieron la portada del numero de la revista –

66. The role of geometry on dispersive forcesCarlos E. Roman-Velazquez & Cecilia NoguezJournal of Physics A: Mathematical and General 39, 6695 – 6701 (2006).

65. Optical circular dichroism of single-wall carbon nanotubesAriadna Sanchez-Castillo, Carlos E. Roman Velazquez, & Cecilia NoguezPhysical Review B 73 045401 (2006).– Seleccionado por el Virtual Journal of Nanoscale Science & Technology, 13, January 16, 2006 published by the American Instituteof Physics and the American Physical Society –

64. Reconstruction of quasi-1D In/Si(111) systems: Charge and spin density waves versus bondingXochitl Lopez-Lozano, A. Krivosheeva, A. Stekolnikov, L. Meza-Montes, Cecilia Noguez, J. Furtmueller, and F. BechstedtPhysical Review B 73, 035430 (2006).– Seleccionado por el Virtual Journal of Nanoscale Science & Technology, 13, February 6, 2006 published by the AmericanInstitute of Physics and the American Physical Society –


http://prb.aps.org/abstract/PRB/v79/i7/e075438

http://pubs.acs.org/doi/abs/10.1021/jp810422r

http://www.springerlink.com/content/d81635652507j225/

http://pubs.rsc.org/en/Content/ArticleLanding/2009/CS/B800404H

http://pubs.acs.org/doi/abs/10.1021/jp806080b

http://www.springerlink.com/content/v5x2751n536841q2/

http://pubs.acs.org/doi/abs/10.1021/jp801545x

http://pubs.acs.org/doi/abs/10.1021/jp800432q

http://www.opticsinfobase.org/oe/abstract.cfm?URI=oe-16-2-710

http://www.ingentaconnect.com/content/asp/jctn/2007/00000004/00000002/art00005?token=004916ffde486b41333c4a2f7a316a762c2b41217a77345f4f6d4e22240d4db911917ebae

http://pubs.acs.org/doi/abs/10.1021/jp066539m

http://pubs.acs.org/action/showLargeCover?issue=40373099

http://iopscience.iop.org/0305-4470/39/21/S70




63. Controlled Anisotropic Deformation of Ag Nanoparticles by Si Ion IrradiationA. Oliver, J. A. Reyes-Esqueda, J. C. Cheang-Wong, C. E. Roman-Velazquez, A. Crespo-Sosa, L. Rodrıguez-Fernandez, J. A. Seman,Cecilia NoguezPhysical Review B 74, 245425 (2006).

62. Optical Absorbance of Colloidal Suspensions of Silver Polyhedral Nanoparticles,Ana L. Gonzalez, Cecilia Noguez, Guillermo P. Ortiz, Geonel Rodrıguez-Gattorno;Journal of Physical Chemistry B 109 17512 – 17517 (2005).

61. Electronic structure and Re�ectance Anisotropy spectrum of InAs(110),Xochitl Lopez Lozano, O. Pulci, Cecilia Noguez, K. Fleischer, W. Richter and R. Del Sole.Physical Review B 71, 125337 (2005).

60. Optical Properties of Isolated and Supported Metal Nanoparticles,Cecilia Noguez,Artıculo por invitacion en: Optical Materials 27, 1204 – 1211 (2005).

59. Electronic and optical properties of InAs(110),Xochitl Lopez Lozano, Cecilia Noguez & Lilia Meza-Montes.Revista Mexicana de Fısica 51 168 – 175 (2005).

58. Dispersive force between dissimilar materials: Geometrical e�ects,Cecilia Noguez, Carlos E. Roman-VelazquezPhysical Review B 70, 195412 (2004).

57. High-multipolar e�ects on the Casimir force: the non-retarded limit,Cecilia Noguez, Carlos E. Roman-Velazquez, C. Villarreal & R. Esquivel-Sirvent,Europhysics Letters 67, 191 – 197 (2004).

56. Spectral Representation of the Casimir Force Between a Sphere and a Substrate,Carlos E. Roman-Velazquez, Cecilia Noguez, C. Villarreal & R. Esquivel-Sirvent,Physical Review A 69, 042109 (2004).

55. Circular dichroism simulated spectra of chiral gold nanoclusters: A dipole approximationCarlos E. Roman-Velazquez, Cecilia Noguez, and I.L. Garzon,Journal of Physical Chemistry B (Letter) 107, 12035 – 12038 (2003).

54. Optical Properties of Metal Nanoparticles with Arbitrary Shapes,Ivan O. Sosa, Cecilia Noguez, and Ruben G. BarreraJournal of Physical Chemistry B 107, 6269 – 6275 (2003).

53. Origin of optical anisotropies of nonpolar GaN surfaces,Cecilia Noguez,Physical Review B, 62, 2681 – 2685 (2000).

52. Substrate e�ects on the optical properties of a spheroidal nanoparticle,Carlos E. Roman, Cecilia Noguez, Ruben G. BarreraPhysical Review B, 61, 10427 – 10436 (2000).

51. Multipolar plasma resonances in supported alkali-metal nanoparticles,C. Beitia, Y. Borensztein, Ruben G. Barrera, Carlos E. Roman, Cecilia NoguezPhysica B 279, 25 – 28 (2000).

50. Optical properties of a spheroid-substrate systemCarlos E. Roman-Velazquez, Cecilia Noguez, Ruben G. BarreraPhysica Status Solidi (a) 175, 393 (1999).

49. Electron energy-loss spectra of non-polar GaN surfacesCecilia Noguez,Physica Status Solidi (a) 175, 57 (1999).

48. Spectroscopic theoretical study of the atomic reconstruction of GaN (1010)Cecilia Noguez,Physical Review B 58, 12641 – 12644 (1998).




http://www.sciencedirect.com/science/article/B6TXP-4F9N6Y9-1/2/55443838e81f7fa96977d92b648f7b74

http://rmf.fciencias.unam.mx/pdf/rmf/51/2/51_2_168.pdf


http://iopscience.iop.org/0295-5075/67/2/191

http://pra.aps.org/abstract/PRA/v69/i4/e042109



http://prb.aps.org/abstract/PRB/v62/i4/p2681_1


http://www.sciencedirect.com/science/article/B6TVH-3YJ9Y37-7/2/98cc074c1333f7c3becb020b7cc38b18

http://www3.interscience.wiley.com/cgi-bin/abstract/65500469/ABSTRACT

http://www3.interscience.wiley.com/cgi-bin/abstract/65500430/ABSTRACT



47. Electron energy loss for anisotropic systems: application to GaN (1010)R. Esquivel-Sirvent, and Cecilia Noguez,Physical Review B 58, 7367 – 7372 (1998).

46. Multipolar and disorder e�ects on the e�ective dielectric properties of granular composites,Cecilia Noguez, and Ruben G. Barrera,Physical Review B 57, 302 – 313 (1998).

45. First-principles calculations of optical properties: application to silicon clustersCecilia Noguez, and S.E. Ulloa,Physical Review B 56, 9719 – 9725 (1997).

44. Theory of the acoustic signature of topological and morphological defects in SiC/ porous SiC laminated ceramics,R. Esquivel-Sirvent and Cecilia Noguez,Journal of Applied Physics 82, 3618 – 3620 (1997).

43. First-principles studies of hydrogenated Si(111)− 7× 7,D.R. Alfonso, Cecilia Noguez, D.A. Drabold, and S.E. Ulloa,Physical Review B 54, 8028 – 8032 (1996).

42. Size dependence of the optical properties of silicon clusters,Cecilia Noguez, J. Song, S.E. Ulloa, D.A. Drabold, and S.H. Yang,Superlattices & Microstructures 20, 405 – 410 (1996).

41. Theoretical and experimental optical spectroscopy study of hydrogen adsorption at Si(111)− 7× 7,Cecilia Noguez, C. Beitia, W. Preyss, A.I. Shkrebtii, M. Roy, Y. Borensztein, and R. Del Sole,Physical Review Letters 76, 4923 – 4926 (1996).

40. Anisotropic optical response of the diamond (111)− 2× 1 surface,Cecilia Noguez, and S.E. Ulloa,Physical Review B 53, 13138 – 13145, (1996).

39. Optical spectroscopy study of hydrogenation of the Si(111)− 7× 7 surface,M. Roy, C. Beitia, Y. Borensztein, A.I. Shkrebtii, Cecilia Noguez, and R. Del Sole,Applied Surface Science, 104/105, 158 – 162 (1996).

38. Microscopic theory of electron transitions at Si(111)− 7× 7: optical properties and energy-loss spectra,Cecilia Noguez, A.I. Shkrebtii, and R. Del Sole,Surface Science 331 – 333, 1349 – 1354, (1995).

37. Disorder e�ects on the e�ective dielectric response of a linear chain of polarizable spheres,Cecilia Noguez, and Ruben G. Barrera,Physica A, 211 (4), 399 –410 (1994).

36. Model approach to the calculation of the Si(111)− 7× 7 optical properties,Cecilia Noguez, A.I. Shkrebtii, and R. Del Sole,Surface Science 318, 342 – 348, (1994).

35. A new diagrammatic summation for the e�ective dielectric response of composites,R. G. Barrera, Cecilia Noguez, and E. V. Anda,Journal of Chemical Physics 96 (2), 1574 – 1581, (1992).

Notas editoriales en revistas indizadas JCR (2)

34. Optics of Surfaces and Interfaces,Cecilia Noguez, Bernardo mendoza, Raul Esquivel-SirventPhysica Status Solidi (b) 249 1091 – 1091 (2012).

33. ISSPIC XV - 15th international symposium on small particles and inorganic clusters,Garzon Ignacio L.; Perez Luis A.; Diaz Gabriela, Cecilia Noguez,European Physical Journal D 63 169 – 169 (2011).




http://jap.aip.org/resource/1/japiau/v82/i7/p3618_s1


http://www.sciencedirect.com/science/article/B6WXB-45N4H8S-1B/2/8fec391d381b6546d4b67931e045c310

http://prl.aps.org/abstract/PRL/v76/i26/p4923_1


http://www.sciencedirect.com/science/article/B6THY-48C8NBW-10/2/55de16011f64ff51f35f06b0f96f3afc

http://www.sciencedirect.com/science/article/B6TVX-3YMWHXV-K2/2/5da2a7fbe9c27a1d2eb0f3933d41de41

http://www.sciencedirect.com/science/article/B6TVG-46FHCXD-5/2/0405bd7de624b3865035f90c44b5d817

http://www.sciencedirect.com/science/article/B6TVX-46R17R7-1J/2/472fd72c8acf1e2f72a77024cd223c7f

http://jcp.aip.org/resource/1/jcpsa6/v96/i2/p1574_s1


http://www.springerlink.com/content/p652l42568678784/


– Artıculos en revistas internacionales con estricto refereo no JCR

32. Optical Properties of Silver Nanoparticles, (35 citas)Ana L. Gonzalez, Cecilia NoguezPhysica Status Soildi (c) 4 (11), 4118 – 4126 (2007).– Al artıculo le dieron la portada del numero de la revista –

31. Optical properties of the cleavage InAs(110) surface, (2 citas)Xochitl Lopez-Lozano, Cecilia Noguez, L. Meza-Montes,Physica Status Solidi (c), 0, 2992 – 2996 (2003).

– Artıculos en revistas de circulacion local con arbitraje no JCR

30. Propiedades electronicas de la super�cie de Germanio (111) reconstruida 2× 1,Martın Solıs & Cecilia Noguez,Artıculo por invitacion en: TIP Revista Especializada en Ciencias Quımico-Biologicas, 3(1): 48 – 59 (2000).

29. Propiedades Viscoelasticas de Suspensiones Coloidales,R. Esquivel. G. Ramırez-Santiago & Cecilia Noguez,Artıculo por invitacion en: TIP Revista Especializada en Ciencias Quımico-Biologicas, 3(1): 14 – 22 (2000).

28. Calculation of the optical properties for the Si(111)-DAS model: 3× 3 reconstruction,Cecilia Noguez, A.I. Shkrebtii & R. Del Sole,Il Vuoto 24, 43 – 45 (1995).

– Capıtulos en libros

Circulacion internacional

27. Chapter 11: Localized Surface Plasmons of Multifaceted Metal Nanoparticles in Complex-Shaped Metal Nanoparticles: Bottom-UpSyntheses and Applications,Cecilia Noguez, Ana L. Gonzalez. (eds T. K. Sau and A. L. Rogach), Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim, Germany.paginas 361 – 393 (Junio 2012). doi: 10.1002/9783527652570.ch11– Al capıtulo le dieron la portada del libro –

26. Quantum mechanical calculations of electronic and optical properties of semiconductor surfaces,Cecilia Noguez, and Olivia Pulci,“Quantum Chemical Calculations of Surfaces and Interfaces of Materials”, pages 217 –248,Editors: V. A. Basiuk and P. Ugliengo, American Scienti�c Publishers (2009).

Circulacion nacional

25. Cuando el futuro de la nanotecnologıa nos alcance,Cecilia Noguez, Grandes Retos del siglo XXI volumen 1, pag. 81 –92, editor H. Vasconselos, Universidad Nacional Autonoma deMexico, Mexico D.F. 2014

24. Fısica a escala nanometrica en Perspectivas de la Fısica para el Siglo XXI,Cecilia Noguez. (eds O. Miramontes y K. Volke),CopIt-arXives 2012, Mexico DF, ISBN 978-0-9831172-9-2. paginas totales 18 (2012).

23. Propiedades opticas de nanopartıculas metalicas,Cecilia Noguez,en Nanoestructuras, editado por la Sociedad Mexicana de Cristalografıa, pags. 91 – 119 (2004).

22. Fısica de nanoestructuras: caracterizacion y propiedades opticas,Cecilia Noguez,X Escuela de verano ”La vision molecular de la materia”, Editores J. Recamier y R. Jauregui, pags. 147 – 160 (2002).

http://onlinelibrary.wiley.com/doi/10.1002/pssc.200675903/abstract



http://www.fisica.unam.mx/cecilia/22-TIP-2.pdf

http://www.fisica.unam.mx/cecilia/21-TIP-1.pdf

http://www.fisica.unam.mx/cecilia/vuoto.pdf

http://onlinelibrary.wiley.com/doi/10.1002/9783527652570.ch11/summary

http://onlinelibrary.wiley.com/doi/10.1002/9783527652570.ch11/summary

http://scifunam.fisica.unam.mx/mir/copit/PERSPECTIVAS/persp.html


– Memorias en extenso con arbitraje de circulacion internacional

21. Surface Plasmon Resonances of Metal Polyhedral NanoparticlesAna L. Gonzalez, Cecilia Noguez,NSTI – Nanotech 2006 1, 423 – 426 (2006).

20. Casimir force between a sphere and a plane: spectral representation formalism,Cecilia Noguez, Carlos E. Roman-Velazquez,en las memorias de “Quantum Field Theory Under the In�uence of External Conditions”, pags. 97 – 103, Rinton Press, Ed. por K.A. Milton (2004).

19. Casimir forces between nanoparticles and substratesCarlos Roman-Velazquez, Cecilia Noguez, C. Villarreal & R. Esquivel-Sirvent.MRS Proceedings Volume 738, pag. G7.35.1 – G7.35.6 (2003).

18. Light scattering by isolated nanoparticles with arbitrary shapes,Cecilia Noguez, Ivan Sosa, Ruben G. Barrera.2001 FALL MEETING PROCEEDINGS, Symposium W Nanoparticulate Materials, Editors: R.K. Singh, R. Partch, M. Muhammed, M.Senna, H. Hofmann, MRS Proceedings Volume 704, pag. 275 – 280 (2002).

17. Casimir Forces between thermally activated nanocompositesRaul Esquivel-Sirvent, C. Villarreal, Cecilia Noguez,2001 FALL MEETING PROCEEDINGS, Symposium V Nanophase and Nanocomposite Materials IV, Editors: S. Komarneni, R.A. Vaia,G.Q. Lu, J-I. Matsushita, J.C. Parker, MRS Proceedings Volume 703, pag. 99 – 104 (2002).

16. Optical Characterization of a Spheroidal Nanoparticle on a Substrate,Carlos E. Roman-Velazquez, Cecilia Noguez, R.G. Barrera,MRS Symposium Proceedings Vol. 581, 485 – 490 (2000); Nanophase and Nanocomposite Materials III, Editores: S. Komarneni,J.C. Parker, H. Hahn.

15. Acoustic signature of defects of SiC/porous SiC laminated ceramics,R. Esquivel-Sirvent, Cecilia Noguez,MRS Symposium Proceedings Vol. 458, 397 – 402 (1997); editado por C. Briant, B. Carter and E. Hall.

14. Optical signature of the GaN(1010) surface,Cecilia Noguez, R. Esquivel-Sirvent, D.R. Alfonso, S.E. Ulloa and D.A. Drabold,MRS Symposium Proceedings Vol. 449, pp. 911 – 916, (1997); editado por F.A. Ponce, T.D. Moustakas, I. Akasaki, B.A. Monemar.

13. Microscopic theory of the optical properties of Si(111)− 7× 7,Cecilia Noguez, A.I. Shkrebtii &R. Del Sole,22nd International Conference on the Physics of Semiconductors. 1995. p. 451 – 454 vol.1. Vancouver, BC, Canada. 15-19 Aug.1994. vol.1. Publisher World Scienti�c Singapore, 1995.

12. Dielectric response of a chain of disordered polarizable spheres: numerical simulation and theory,Pedro Villasenor-Gonzalez, Cecilia Noguez &Ruben G. Barrera,“Applications of multiple scattering theory to material science”, MRS Symposium Proceedings, Vol. 253, pags.123 – 128, ed. porWilliam H. Butler, Peter H. Dederichs, A. Gonis and R. Weaver, MRS, Pittsburgh, (1992).

11. The optical response of composites at low �lling fractions: a new diagrammatic summation,Ruben G. Barrera, Cecilia Noguez, & Enrique V. Anda,Surface Sciences: lectures on basic concepts and applications, Vol.62 pags. 249 – 255, ed. por F.A. Ponce y M. Cardona, Springer-Verlag, Berlın, (1991).

10. E�ective dielectric response of composites: a new diagrammatic approach,Ruben G. Barrera, Cecilia Noguez & Enrique V. Anda,Condensed Matter Theories, Vol. 5, pags. 209 – 216, ed. por V.C. Aguilera-Navarro, Plenum Press, New york, (1990).

– Memorias en extenso en espanol

9. Birrefringencia optica exhibida por nanopartıculas metalicas de plata deformadas,Torres-Torres C., Reyes-Esqueda J.A., Cheang-Wong J. C., Crespo-Sosa A., Rodrıguez-Fernandez L., Noguez C., Oliver A.,XX Reunion Anual de Optica, 2007.


8. Comportamiento optico de partıculas en escala nanometricaCecilia Noguez,Memoria IV encuentro “Participacion de la mujer en la Ciencia”, ISBN 978-968-9241-03-4. Leon Guanajuato, Mayo de 2007.

7. Calculo de Espectros de Dicroısmo Circular de Nanotubos QuiralesAriadna Sanchez-Castillo, Carlos E. Roman Velazquez, Cecilia Noguez, & L. Meza-MontesMemorias VI Taller Nacional de Estudiantes de Posgrado en Fısica y Ciencia de Materiales, Puebla 2004.

6. Estudio teorico de nanotubos de carbono por medio de dicroısmo circularAriadna Sanchez-Castillo, Carlos E. Roman Velazquez, Cecilia Noguez, & L. Meza-MontesMemorias del IX Encuentro Regional de Investigacion y Ensenanza de la Fısica, 2004.

5. Propiedades electronicas de super�cies semiconductoras idealesXochitl Lopez Lozano, Cecilia Noguez, & L. Meza MontesMemorias del V Taller Nacional de Fısica y Ciencia de Materiales para Estudiantes de Posgrado, F. Perez Rodrıguez et. al., BUAP2003, ISBN 968 863 683 5, Mexico.

4. Propiedades electronicas de las super�cies semiconductoras ideales GaAs e InAsXochitl Lopez Lozano, Cecilia Noguez, & L. Meza MontesMemorias del VIII Encuentro Regional de Investigacion y Ensenanza de Fısica, 2002. (en CD)

– Artıculos de divulgacion

3. Y se hizo la luz (Nota editorial),Cecilia Noguez & R. JaureguiCiencia 63 (3), pp 6–7 (2016).

2. Comprimiendo la luz,Cecilia Noguez,Ciencia 63 (3), pp 39–45 (2016).

1. Nanociencia y Nanotecnologıa,Ignacio L. Garzon & Cecilia Noguez,Ciencia y Tecnologıa 30, 46 –49 (2005).

CITAS

TOTAL CITAS 3186

CITAS SIN AUTOCITAS (93.20 %) 2970TIPO A: Citas externas . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2845TIPO B: Citas por coautores . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 125

TIPO C: Autocitas (6.80 %) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 216

INDICE h 24

CITAS en Google Academico (al 27 de enero de 2017) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3700Puede consultar el sitio web http://scholar.google.com.mx/citations?user=9JVn-G0AAAAJ&hl=es

c.a. = autor responsable de la publicacion

http://scholar.google.com.mx/citations?user=9JVn-G0AAAAJ&hl=es


Tabla informativa de citas ISI (WoS) & SCOPUS (3186)

ARTICULO ANO C.A. AUTOR(ES) CITAS TIPO A TIPO B TIPO C1 J. Phys. Chem C 111 3806 2007 X Noguez 879 869 – 102 J. Phys. Chem. B 107 63269 2003 X Sosa et al. 521 511 2 83 Plasmonics 3 127 2008 Zhang et al. 212 203 6 34 Chem. Soc. Rev. 38 757 2009 X Noguez et al. 168 161 2 55 Opt. Mater. 27 1204 2005 X Noguez 118 105 – 136 Phys. Rev. B 74 245425 2006 X Oliver et al. 93 63 27 37 J. Phys. Chem. B 107 12035 2003 X Roman-Velazquez et al. 79 71 2 68 J. Comp. Theor. Nanosci. 4 273 2007 X Gonzalez et al. 78 69 1 89 Phys. Rev. Lett. 76 4923 1996 Noguez et al. 76 49 23 410 J. Am. Chem. Soc. 132 1504 2010 X Sanchez-Castillo et al. 73 64 3 611 J. Phys. Chem. C 112 7356 2008 X Gonzalez et al. 72 62 5 512 J. Phys. Chem. B 109 17512 2005 X Gonzalez et al. 60 49 3 813 Phys. Rev. B 61 10427 2000 X Roman-Velazquez et al. 39 28 1 1014 J. Phys. Chem. C 112 17533 2008 Santizo et al. 37 28 3 615 Phys. Rev. B 73 045401 2006 X Sanchez-Castillo et al. 36 33 – 316 Phys. Rev. B 73 035430 2006 Lopez-Lozano et al. 36 31 5 –17 Phys. Sta. Sol. (c) 4 4118 2007 X Gonzalez et al. 35 28 1 618 Opt. Exp. 16 710 2008 Reyes-Esqueda et al. 33 22 9 219 J. Phys. Chem. Lett. 2 1038 2011 X Noguez et al. 28 25 – 320 J. Phys. Chem. C 114 9640 2010 X Sanchez-Castillo et al. 27 22 – 521 Surf. Sci. 331-333 1349 1994 Noguez et al. 26 20 1 522 Eur. Phys. Lett. 67 191 2004 X Noguez et al. 25 19 6 –23 Phys. Rev. B 54 8028 1996 Alonso et al. 25 22 1 224 J. Chem. Phys. 96 1574 1992 Barrera et al. 25 18 2 525 J. Phys. Chem. Lett. 2 1978 2011 X Angulo et al. 22 20 – 226 Phys. Rev. B 79 075438 2009 X Hidalgo et al. 20 10 – 1027 Phys. Rev. B 70 195412 2004 X Noguez et al. 20 15 2 328 J. Phys. Chem. A 113 4068 2009 X Roman-Velazquez et al. 19 15 1 329 Phys. Rev. B 57 302 1998 X Noguez et al. 17 14 – 330 J. Chem. Phys. 134 044116 2011 X Roman-Velazquez et al. 16 12 – 431 Eur. Phys. J. D 52, 179 2009 X Hidalgo et al. 15 9 1 532 Phys. Rev. B 58 12641 1998 X Noguez 15 9 – 633 J. Phys. Chem. A 112 5834 2008 X Angulo et al. 14 10 – 434 Surf. Sci. 318 342 1994 Noguez et al. 14 10 1 335 J Phys Chem C 118 9128 2014 X Gonzalez et al. 12 8 1 336 J Phys Chem C 116 14170 2012 X Gonzalez et al. 12 8 1 337 Phys. Sta. Sol. (b) 247 1889 2010 X Hidalgo et al. 12 9 – 338 Phys. Rev. A 69 042109 2004 X Roman-Velazquez et al. 12 8 1 339 Phys. Rev. B 58 7367 1998 X Esquivel-Sirvent et al. 12 8 – 440 Phys. Rev. B53 13138 1996 X Noguez et al. 12 5 – 741 Nature Nanotechnol. 11 520 2016 Kim et al. 11 10 – 142 ACS Nano 7 513 2013 X Hidalgo et al. 11 8 – 343 Phys. Rev. B 56 9719 1997 X Noguez et al. 11 10 – 144 Phys. Rev. B 62 2681 2000 X Noguez 10 9 – 145 Nanoscale 6 3325 2014 X Hidalgo et al. 8 6 – 246 Supp. &Micro. 20 405 1996 X Noguez et al. 8 5 2 147 Physica A 211 399 1994 Noguez et al. 8 6 – 248 J Phys Chem C 119 10824 2015 X Becerril et al. 7 6 – 149 J Mat Chem C 1 3150 2013 X Gonzalez et al. 7 5 – 2


ARTICULO ANO C.A. AUTOR(ES) CITAS TIPO A TIPO B TIPO C50 Phys. Rev. B 71 125337 2005 X Lopez-Lozano et al. 6 2 4 –51 Physica B 279 2000 Beitia et al. 6 3 1 252 J. Phys. A 39 6695 2006 X Roman-Velazquez et al. 5 3 2 –53 MRS Proceedings Vol. 704 2002 X Noguez et al. 5 4 – 154 Phys. Sta. Sol. (a)175 57 1999 X Noguez 5 4 – 155 Phys. Sta. Sol. (a)175 393 1999 X Roman-Velazquez et al. 4 3 – 156 J. Appl. Phys. 82 3618 1997 Esquivel-Sirvent et al. 4 4 – –57 Appl. Surf. Sci. 104 158 1996 Roy et al. 4 4 – –58 Chirality 26 2014 X Hidalgo et al. 3 1 – 259 MRS Proceedings Vol. 703 2002 Esquivel-Sirvent et al. 3 – 3 –60 MRS Proceedings, Vol. 253 1993 Villasenor-G. et al. 3 3 – –61 Phys. Sta. Sol. (c) 0 2992 2003 X Lopez-Lozano et al. 2 2 – –62 Quantum Field Theory . . . 2004 X Noguez et al. 2 1 – 163 MRS Proceedings Vol. 449 1997 X Noguez et al. 2 1 – 164 Nanoscale 8 14457 2016 X Hidalgo et al. 1 1 – –65 Phys. Sta. Sol. (b) 252 2015 X Noguez et al. 1 1 – –66 Cap. Quantum Chem. Calculations 2009 X Noguez et al. 1 – 1 –67 MRS Proceedings Vol. 581 2000 X Roman-Velazquez et al. 1 – – 168 Com. Privada 1998 Noguez 1 1 – –69 Surface Sciences Proceedings Vol. 62 1990 Barrera et al. 1 – 1 –

TOTALES 3186 2845 125 216

Lista de citas sin autocitas (2970)

ARTICULO (citas 869):Surface Plasmons on Metal Nanoparticles: The In�uence of Shape andPhysical Environment, Cecilia Noguez, J Phys Chem C (Feature Article) 111(10) 3806-3819 (2007).

TIPO A (869):

2970. Boris N. Khlebtsov, Andrei Melnikov and Nikolai G. Khlebtsov, Onthe extinction multipole plasmons in gold nanorods, J. QuantitativeSpectroscopy and Radiative Transfer 107, 306 (2007)

2969. Stener, M.; Nardelli, A.; De Francesco, R.; Fronzoni, G., Optical Ex-citations of Gold Nanoparticles: A Quantum Chemical Scalar Rela-tivistic Time Dependent Density Functional Study, J. Phys. Chem.C (2007) 111, 11862

2968. Khlebtsov, B. N.; Khlebtsov, N. G, Multipole Plasmons in Metal Nano-rods: Scaling Properties and Dependence on Particle Size, Shape,Orientation, and Dielectric Environment, J. Phys. Chem. C (2007)111, 11516

2967. A. B. Evlyukhin, G. Brucoli, L. Martın-Moreno, S. I. Bozhevolnyi, andF. J. Garcıa-Vidal, Surface plasmon polariton scattering by �nite-size nanoparticles, Phys. Rev. B 76, 075426 (2007)

2966. V.V. Klimov and D.V. Guzatov, Pasmonic atoms and plasmonic mo-lecules, Journal Applied Physics A: Materials Science & Processing,89, 305 (2007).

2965. Sprunken, D. P.; Omi, H.; Furukawa, K.; Nakashima, H.; Sychugov,I.; Kobayashi, Y.; Torimitsu, K., In�uence of the Local Environmenton Determining Aspect-Ratio Distributions of Gold Nanorods in So-lution Using Gans Theory, J. Phys. Chem. C 111, 14299 (2007)

2964. K Munechika, J M. Smith, Y Chen, D S. Ginger, Plasmon Line Widthsof Single Silver Nanoprisms as a Function of Particle Size and Plas-mon Peak Position, J. Phys. Chem. C 111, 18906 (2007)

2963. M Sukharev, J Sung, K G. Spears, T Seideman, Optical propertiesof metal nanoparticles with no center of inversion symmetry: Ob-servation of volume plasmons, Phys. Rev. B 76, 184302 (2007)

2962. Evlyukhin, A.B., Leksin, A.Yu , Gerke, M.N. , Evlyukhina, E.V., Reso-nance near-�eld optical response of metal nanoparticle structuresin a layer environment, Proceedings of SPIE - The International So-ciety for Optical Engineering Volume 6728, 2007, Article number672819.

2961. E. Carbo-Argibay, B. Rodrıguez-Gonzalez, J. Paci�co, I. Pastoriza-Santos, J. Perez-Juste, L. M. Liz-Marzan, Chemical Sharpening ofGold Nanorods: The Rod-to-Octahedron Transition, AngewandteChemie 119, 9141 (2007)

2960. Bryant, G. W.; Garcia de Abajo, F. J.; Aizpurua, J., Mapping thePlasmon Resonances of Metallic Nanoantennas, Nano Lett. 8, 631(2008)

2959. L Shang, S Dong, Detection of neurotransmitters by a light scatte-ring technique based on seed-mediated growth of gold nanopar-ticles, Nanotechnology 19, 095502 (2008)

2958. Olkhov, R.V., Shaw, A.M., Label-free antibody-antigen binding de-tection by optical sensor array based on surface-synthesized goldnanoparticles, Biosensors and Bioelectronics 23, 1298 (2008)

2957. Henry, Kiely, Sir Thomas , Russell, Ricolleau, Bond, Geng, Mattei,Johnston, Mejia , Lievens, Ferrando, Henry, Leiva, El-Shall, Fortu-nelli, Broyer, Jellinek, Langlois, Baletto, Geng , Hou, Hampe, Ellis,Scho�eld, Hutchings, Johnson, Pastor, Marsault, Baletto GeneralDiscussion, Faraday Discussions 138, 421 (2008)

2956. Song, Y., Yanga, W., King, M Shape controlled synthesis of sub-3nm Ag nanoparticles and their localized surface plasmonic pro-perties, Chemical Physics Letters 455, 218 (2008)

2955. Bae, Y.; Kim, N. H.; Kim, M.; Lee, K. Y.; Han, S. W.; AnisotropicAssembly of Ag Nanoprisms, J. Am. Chem. Soc. 130, 5432 (2008)

2954. Mazurenka, M.; Hamilton, S. M.; Unwin, P. R.; Mackenzie, S. R.; In-Situ Measurement of Colloidal Gold Adsorption on FunctionalizedSilica Surfaces, J. Phys. Chem. C 112, 6462 (2008)

2953. M. Hu, C. Novo, A. Funston, H. Wang, H. Staleva, S. Zou, P. Mulva-ney, Y. Xia, G V. Hartland, Dark-�eld microscopy studies of single


metal nanoparticles: understanding the factors that in�uence thelinewidth of the localized surface plasmon resonance, J. Mater.Chem. 18, 1949 (2008)

2952. Hsu, Y.-J.; Lu, S.-Y.; Lin, Y.-F.; Spontaneous Reduction of Metal IonsInitiated by Ethylenediamine-Capped CdS Nanowires: A SensingMechanism Revealed, Chem. Mater. 20, 2854 (2008)

2951. Juluri, B. K.; Zheng, Y. B.; Ahmed, D.; Jensen, L.; Huang, T. J., E�ectsof Geometry and Composition on Charge-Induced Plasmonic Shi�sin Gold Nanoparticles, J. Phys. Chem. C. 112, 7309 (2008)

2950. D Ferrer, D A. Blom, L F. Allard, S Mejıa, E Perez-Tijerina, M Jose-Yacaman, Atomic structure of three-layer Au/Pd nanoparticles re-vealed by aberration-corrected scanning transmission electron mi-croscopy, J. Mater. Chem. 18, 2442 (2008).

2949. R Brahma, M G Krishna, Ion beam sputtered ultra-thin and na-nostructured Ag �lms for surface plasmon applications, NuclearInstruments and Methods in Physics Research Section B: Beam In-teractions with Materials and Atoms 266, 1493 (2008)

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2938. Aikens, C. M.; Li, S.; Schatz, G. C. From Discrete Electronic States toPlasmons: TDDFT Optical Absorption Properties of Agn (n = 10, 20,35, 56, 84, 120) Tetrahedral Clusters, J. Phys. Chem. C. 112 11272(2008)

2937. Ovchinnikov, V., Shevchenko, A. Surface plasmon resonances indi�usive re�ection spectra of multilayered silver nanocompo-site �lms, Proceedings - The 2nd International Conference onQuantum-, Nano- and Micro-technologies, ICQNM 2008, art. no.4455929, pp. 40-44

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2934. A. Burchianti, A. Bogi, C. Marinelli, C. Maibohm, E. Mariotti, S. San-guinetti, L. Moi, Optical characterization and manipulation of alkalimetal nanoparticles in porous silica, The European Physical Jour-nal D 49, 201 (2008)

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2912. Tong, L; Wei, QS; Wei, A; Cheng, JX; Gold Nanorods as ContrastAgents for Biological Imaging: Optical Properties, Surface Conju-gation and Photothermal E�ects Photochimestry and Photobiology85, 21-32 (2009)

2911. L Shang and S Dong, Design of Fluorescent Assays for Cyanideand Hydrogen Peroxide Based on the Inner Filter E�ect of MetalNanoparticles, Anal. Chem., 81 1465 (2009)

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2909. S Neretina, W Qian, EC Dreaden, MA El-Sayed Exciton LifetimeTuning by Changing the Plasmon Field Orientation with Respectto the Exciton Transition Moment Direction: CdTe-Au Core-ShellNanorods, Nano Lett. 9, 1242 (2009)

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2906. DM Ledwith, D Aherne JM KellyApproaches to the Synthesis andCharacterization of Spherical and Anisotropic Silver Nanomaterialsin Metallic Nanomaterials (Nanomaterials for Life Sciences (VCH))edited by C. Kumar, Wiley VCH Verlag, Germany 2009

2905. Neretina S, Qian W, Dreaden EC, El-Sayed MA, Hughes RA, Pres-ton JS, Mascher P Exciton Lifetime Tuning by Changing the PlasmonField Orientation with Respect to the Exciton Transition Moment Di-rection: CdTe-Au Core-Shell Nanorods, Nano Letters 9, 1242 (2009)

2904. Zhao WB, Park J, Caminade AM, Jeong SJ, Jang YH, Kim SO, MajoralJP, Cho J, Kim DH Localized surface plasmon resonance couplingin Au nanoparticles/phosphorus dendrimer multilayer thin �lmsfabricated by layer-by-layer self-assembly method, J MaterialsChemistry 19, 2006 (2009)

2903. X Dong, X Ji, H Wu, L Zhao, J Li and W Yang Shape Control of SilverNanoparticles by Stepwise Citrate Reduction, J. Phys. Chem. C 113,6573 (2009)

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2901. Zhu, J Shi� Fashion of Surface Plasmon Resonances in Non-Spherical Gold Nanoparticles: A Simple Model of Surface PlasmonDynamics, Current Nanoscience 5, 216 (2009)

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2899. A Pyatenko, M Yamaguchi, M Suzuki Mechanisms of Size Reductionof Colloidal Silver and Gold Nanoparticles Irradiated by Nd:YAGLaser, J. Phys. Chem. C 113, 9078 (2009)

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2887. Zhang, SX; Gao, JF; Buchholz, TA; Wang, ZL; Salehpour, MR; Drezek,RA; Yu, TK, Quantifying tumor-selective radiation dose enhance-ments using gold nanoparticles: a monte carlo simulation study,Biomed. Microdevices 11, 925 (2009)

2886. Bishop, KJM; Wilmer, CE; Soh, S; Grzybowski, BA, Nanoscale Forcesand Their Uses in Self-Assembly, Small 5, 1600 (2009)

2885. Chan YH, Chen JX, Wark SE, Skiles SL, Son DH, Batteas JD Using Pat-terned Arrays of Metal Nanoparticles to Probe Plasmon EnhancedLuminescence of CdSe Quantum Dots, ACS Nano 3, 1735 (2009)

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2883. Losurdo, M., Giangregorio, M.M., Bianco, G.V., Sacchetti, A., Ca-pezzuto, P., Bruno, G., Enhanced absorption in Au nanoparticles/a-Si:H/c-Si heterojunction solar cells exploiting Au surface plasmonresonance, Solar Energy Materials and Solar Cells 93, 1749 (2009)

2882. Newman, J.D.S., MacCrehan, W.A., The e�ect of aniline concentra-tion in the ligand exchange reaction with citrate-stabilized goldnanoparticles, Langmuir 25, 8993 (2009)

2881. DAgostino, S., Pompa, P.P., Chiuri, R., Phaneuf, R.J., Britti, D.G., Ri-naldi, R., Cingolani, R., Della Sala, F., Enhanced �uorescence bymetal nanospheres on metal substrates, Optics Letters 34, 2381(2009)

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2879. Aherne, D; Charles, DE; Brennan-Fournet, ME; Kelly, JM; Gun’ko, YK,Etching-Resistant Silver Nanoprisms by Epitaxial Deposition of aProtecting Layer of Gold at the Edges, Langmuir 25, 10165 (2009)

2878. Mayoral, A; Vazquez-Duran, A; Barron, H; Jose-Yacaman, M, Poly-hedral shaped gold nanoparticles with outstanding near-infraredlight absorption, Appl. Phys. 97, 11 (2009)

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2876. Rodriguez-Iglesias, V; Silva-Pereyra, HG; Torres-Torres, C; Reyes-Esqueda, JA; Cheang-Wong, JC; Crespo-Sosa, A; Rodriguez-Fernandez, L; Lopez-Suarez, A; Oliver, A, Large and aniso-tropic third-order nonlinear optical response from anisotropy-controlled metallic nanocomposites, Optics Communications 282,4157 (2009)

2875. Al-Qadi, B., Toshiharu, S. A study of optical anisotropy for nearlyspherical gold nanoparticles: Toward a sensitive detection usingpolarization microscopy in biomolecular applications, Progress inBiomedical Optics and Imaging - Proceedings of SPIE 7190, 719016(2009)

2874. Simsek E, On the Surface Plasmon Resonance Modes of MetalNanoparticle Chains and Arrays, Plasmonics 4, 223 (2009)

2873. Maduraiveeran, G., Ramaraj, R., Potential sensing platform of silvernanoparticles embedded in functionalized silicate shell for nitroa-romatic compounds, Analytical Chemistry 81, 7552 (2009)

2872. Juluri, BK; Lu, MQ; Zheng, YB; Huang, TJ; Jensen, L, Coupling bet-ween Molecular and Plasmonic Resonances: E�ect of MolecularAbsorbance, J. Phys. Chem C 113, 18499 (2009)

2871. Rodriguez-Fernandez, J; Novo, C; Myroshnychenko, V; Funston, AM;Sanchez-Iglesias, A; Pastoriza-Santos, I; Perez-Juste, J; de Abajo,FJG; Liz-Marzan, LM; Mulvaney, P Spectroscopy, Imaging, and Mo-deling of Individual Gold Decahedra, J. Phys. Chem C 113, 18623(2009)

2870. Zhu, S., Huang, J., Tang, S., Meng, X, Synthesis of Ag microparticleswith hierarchical nanostructure on the anode of a galvanic cell,Materials Chemistry and Physics 118, 442 (2009)

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2863. Khlebtsov, NG; Dykman, LA, Optical properties and biomedical ap-plications of plasmonic nanoparticles, J. Quantitative Spectroscopy& Radiative Transfer 111, 1-35 (2010)

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2861. Jessica, R.-F., Novo, C., Myroshnychenko, V., Funston, A.M., Ana, S.-I., Isabel, P.-S., Jorge, P.-J., (...), Mulvaney, P. Spectroscopy, imaging,and modeling of individual gold decahedra, J Phys Chem C 113,18623 (2009)

2860. Z R Guo, C R Gu, X Fan, Z P Bian, H F Wu, D Yang, N Gu and JN Zhang, Fabrication of Anti-human Cardiac Troponin I Immuno-gold Nanorods for Sensing Acute Myocardial Damage, NanoscaleResearch Letters 4, 1931 (2009)

2859. Kuznetsov, AI; Evlyukhin, AB; Reinhardt, C; Seidel, A; Kiyan, R;Cheng, W; Ovsianikov, A; Chichkov, BN Laser-induced transfer ofmetallic nanodroplets for plasmonics and metamaterial applica-tions, J. Optical Soc. Am. B-Optical Physics 26, B130 (2009)

2858. Al-Qadi, B; Saiki, T Optical characterization for nearly sphericalgold colloidals via their polarization response, J. Nanophotonics3, 039503 (2009)

2857. Trinh, L.T.T., Volden, S., Kjoniksen, A.-L., Zhu, K., Knudsen, K.D.,Glomm, W.R., Nystrom, B, Temperature-induced adsorption andoptical properties of an amphiphilic diblock copolymer adsorbedonto �at and curved silver surfaces, J. Colloid and Interface Scien-ce 342, 142 (2010)

2856. Y W Lee, M Kim, Z H Kim, S W Han, One-Step Synthesis of Au at PdCore-Shell Nanooctahedron, J. Am. Chem. Soc. 131, 17036 (2009)

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2854. Kim, K., Ryoo, H., Lee, Y.M., Shin, K.S. Adsorption characteristics ofAu nanoparticles onto poly(4-vinylpyridine) surface revealed byQCM, AFM, UV/vis, and Raman scattering spectroscopy, J. Colloidand Interface Science 342, 479 (2010)

2853. Al-Qadi, B., Yamaoka, A., Saiki, T. Experimental observation ofpolarization anisotropy for nearly spherical gold nanoparticles,Conference Proceedings - Lasers and Electro-Optics Society An-nual Meeting-LEOS, Article number 5343342, Pages 769 (2009)

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2851. Li Shang, Lihua Jin, Shaojun Guo, Junfeng Zhai and Shaojun Dong,A Facile and Controllable Strategy to Synthesize Au-Ag Alloy Na-noparticles within Polyelectrolyte Multilayer Nanoreactors uponThermal Reduction, Langmuir 26, 6713 (2010)

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2849. Ergun Simsek, Full Analytical Model for Obtaining Surface PlasmonResonance Modes of Metal Nanoparticle Structures Embedded inLayered Media, Opt. Express 18, 1722 (2010)

2848. R Kydd, J Scott, W Y Teoh, K Chiang, R Amal, Understanding Photo-catalytic Metallization of Preadsorbed Ionic Gold on Titania, Ceria,and Zirconia, Langmuir 26, 2099 (2010)

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2841. Amendola, V; Bakr, OM; Stellacci, F A Study of the Surface PlasmonResonance of Silver Nanoparticles by the Discrete Dipole Appro-ximation Method: E�ect of Shape, Size, Structure, and Assembly,PLASMONICS 5 (1): 85 (2010)

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2839. Wronkowska, AA; Wronkowski, A; Kuklinski, K; Senski, M; Skowrons-ki, L Spectroscopic ellipsometry study of the dielectric response ofAu-In and Ag-Sn thin-�lm couples, APPLIED SURFACE SCIENCE 256(15): 4839-4844 MAY 15 2010

2838. Aherne, D., Gara, M., Kelly, J.M., Gun’Ko, Y.K. From ag nanoprismsto triangular auag nanoboxes, Advanced Functional Materials 20(8), pp. 1329-1338 (2010)

2837. Grant, J., Shi, X., Alton, J., Cumming, D.R.S. Terahertz surface plas-mon resonance of periodic silicon micro-dot arrays, IEEE Photo-nics Society Winter Topicals Meeting Series, WTM 2010 , art. no.5421978, pp. 34-35 (2010)

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2835. Preclikova, J., Trojanek, F., Nemec, P., Maly, P., Multicolour photo-chromic behaviour of silver nanoparticles in titanium dioxide ma-trix, Physica Status Solidi (C) Current Topics in Solid State Physics5 (11), pp. 3496-3498 (2010)

2834. Al-Qadi, B., Saiki, T. Gold colloidals optical characterization byobserving their scattering polarization 2010 Progress in BiomedicalOptics and Imaging - Proceedings of SPIE PLASMONICS IN BIOLOGYAND MEDICINE VII 7577, art. no. 75770V

2833. Sau, T.K., Rogach, A.L., Jackel, F., Klar, T.A., Feldmann, J. Propertiesand applications of colloidal nonspherical noble metal nanoparti-cles, 2010 Advanced Materials 22 (16), pp. 1805-1825

2832. Borensztein Y, Delannoy L, Djedidi A, et al. Monitoring of the Plas-mon Resonance of Gold Nanoparticles in Au/TiO2 Catalyst underOxidative and Reducing Atmospheres, J. PHYSICAL CHEMISTRY C114, 9008 (2010).

2831. Chen, S.-Y., Lazarides, A.A. Manipulation of near �eld polarizationby far �eld excitation, 2010 Proceedings of SPIE - The InternationalSociety for Optical Engineering 7604, art. no. 76041B

2830. Kumar, P; Krishna, MG, A comparative study of laser- and electric-�eld-induced e�ects on the crystallinity, surface morphology andplasmon resonance of indium and gold thin �lms, PHYSICA STATUSSOLIDI A-APPLICATIONS AND MATERIALS SCIENCE 207 (4): 947-954Sp. Iss. SI APR 2010

2829. Ruda, HE; Shik, A Nanorod dynamics in ac electric �elds, NANO-TECHNOLOGY 21 (23): Art. No. 235502 JUN 11 2010

2828. Hu, C; Chen, X; Feng, Q; Luo, X Double negative in �exural singlemetal layer at visible frequencies, APPLIED PHYSICS B-LASERS ANDOPTICS 99 (3): 499-502 MAY 2010

2827. S. M. Hashemi Rafsanjani, T. Cheng, S. Mittler, and C. Rangan,Theoretical proposal for a biosensing approach based on a li-near array of immobilized gold nanoparticles, J. Appl. Phys. 107,094303 (2010)

2826. Du, CL; You, YM; Johnson, K; Hu, HL; Zhang, XJ; Shen, ZX Near-�eldCoupling E�ect between Individual Au Nanospheres and their Sup-porting SiO2/Si Substrate, PLASMONICS 5 (2): 105-109 JUN 2010

2825. Dolgov, L., Kiisk, V., Reedo, V., Maaroos, A., Sildos, I., Kikas, J. Sol-gel derived metal oxides doped with silver nanoparticles as tu-nable plasmonic materials, 2010 Physica Status Solidi (A) Applica-tions and Materials 207 (5), pp. 1166-1169

2824. Hu, R; Yong, KT; Ding, H; Prasad, PN; He, SL Tunable multicoloredhybrid metallic nanoparticles for live human cancer cell imaging,J. NANOPHOTONICS 4: Art. No. 041545 FEB 23 2010

2823. Khlebtsov, NG Anisotropic properties of plasmonic nanoparticles:depolarized light scattering, dichroism, and birefringence, J. NA-NOPHOTONICS 4: Art. No. 041587 MAR 4 2010

2822. Yurkin, MA; de Kanter, D; Hoekstra, AG Accuracy of the discretedipole approximation for simulation of optical properties of goldnanoparticles, J. NANOPHOTONICS 4: Art. No. 041585 FEB 5 2010

2821. Chen, HA; Lin, HY; Lin, HN Localized Surface Plasmon Resonancein Lithographically Fabricated Single Gold Nanowires, J. PHYSICALCHEMISTRY C 114 (23): 10359-10364 JUN 17 2010

2820. Portales, H; Goubet, N; Saviot, L; Yang, P; Sirotkin, S; Duval, E;Mermet, A; Pileni, MP Crystallinity Dependence of the PlasmonResonant Raman Scattering by Anisotropic Gold Nanocrystals, ACSNANO 4 (6): 3489-3497 JUN 2010

2819. C Wang, J Gu, J Han, Q Xing, Z Tian, F Liu, L Chai, Y Li, M Hu, QWang, X Lu, W Zhang Role of mode coupling on transmission pro-perties of subwavelength composite hole-patch structures, Appl.Phys. Lett. 96, 251102 (2010)

2818. Cade, N., Ritman-Meer, T., Richards, D. Hybridized exciton-plasmonpolaritons in nanostructured silver �lms, 2010 Proceedings of SPIE- The International Society for Optical Engineering NANOPHOTO-NICS III 7712, art. no. 77120C

2817. Wang R, Wang J, Hao FH, Tian QA White-light total internal re�ec-tion microscopy for characterizing the optical properties of Ag-coated optical �ber tips, APPLIED OPTICS 49, 3905 (2010)

2816. Jain B, Srivastava AK, Uppal A, Gupta PK, Das K NIR FemtosecondLaser Induced Hyper-Rayleigh Scattering and Luminescence fromSilver Nanoprisms J. NANOSCIENCE AND NANOTECHNOLOGY 10,5826 (2010)


2815. Letnes, PA; Simonsen, I Spectrally dependent locations of hot-spotsin nanoparticle clusters, PHYSICA STATUS SOLIDI B-BASIC SOLIDSTATE PHYSICS 247 (8): 2084-2088 AUG 2010

2814. Gu, Y; Li, J; Martin, OJF; Gong, QH Solving surface plasmon reso-nances and near �eld in metallic nanostructures: Green’s matrixmethod and its applications, CHINESE SCIENCE BULLETIN 55 (24):2608-2617 AUG 2010

2813. Beyene, HT; Tichelaar, FD; Peeters, P; Kolev, I; van de Sanden, MCM;Creatore, M Hybrid Sputtering-Remote PECVD Deposition of Au Na-noparticles on SiO2 Layers for Surface Plasmon Resonance-BasedColored Coatings, PLASMA PROCESSES AND POLYMERS 7 (8): 657-664 AUG 23 2010

2812. Zhu, JA; Li, JJ; Zhao, JW Focusing Local Electric Field Inside andOutside Gold Nanotube by Choosing the Incident Frequency, J.COMPUTATIONAL AND THEORETICAL NANOSCIENCE 7 (11): 2291-2296 NOV 2010

2811. Mondal, B; Saha, SK Fabrication of SERS substrate using nanopo-rous anodic alumina template decorated by silver nanoparticles,CHEMICAL PHYSICS LETTERS 497 (1-3): 89-93 SEP 10 2010

2810. Kolwas, K; Derkachova, A Plasmonic abilities of gold and sil-ver spherical nanoantennas in terms of size dependent multipo-lar resonance frequencies and plasmon damping rates, OPTO-ELECTRONICS REVIEW 18 (4): 429-437 DEC 2010

2809. Niesen, B; Rand, BP; Van Dorpe, P; Shen, HH; Maes, B; Genoe, J;Heremans, P, Excitation of multiple dipole surface plasmon reso-nances in spherical silver nanoparticles, OPTICS EXPRESS 18 (18):19032-19038 AUG 30 2010

2808. Barbosa, S; Agrawal, A; Rodriguez-Lorenzo, L; Pastoriza-Santos, I;Alvarez-Puebla, RA; Kornowski, A; Weller, H; Liz-Marzan, LM, TuningSize and Sensing Properties in Colloidal Gold Nanostars, LANGMUIR26 (18): 14943-14950 SEP 21 2010

2807. Wang, BB; Dong, B; Li, B; Zhao, B; Li, CY, Janus gold nanoparti-cle with bicompartment polymer brushes templated by polymersingle crystals, POLYMER 51 (21): 4814-4822 OCT 1 2010

2806. Ajit Sadana, Neeti Sadana Nanobiosensors, Handbook of Biosen-sors and Biosensor Kinetics, 2011, Pages 95-128

2805. Ros, I; Schiavuta, P; Bello, V; Mattei, G; Bozio, R Femtosecond non-linear absorption of gold nanoshells at surface plasmon resonan-ce, PHYSICAL CHEMISTRY CHEMICAL PHYSICS 12 (41): 13692-136982010

2804. Zopes, D., Von Hagen, R., Muller, R., Fiz, R., Mathur, S. Ink-jetablepatterning of metal-catalysts for regioselective growth of nanowi-res, (2010) Nanoscale, 2 (10) pp. 2091-2095.

2803. Ruting, F., Uecker, H. Statistics for surface modes of nanoparticleswith shape �uctuations, (2010) Communications in ComputationalPhysics, 8 (5) pp. 1224-1241.

2802. Abidi, W; Selvakannan, PR; Guillet, Y; Lampre, I; Beaunier, P; Pan-su, B; Palpant, B; Remita, H One-Pot Radiolytic Synthesis of GoldNanorods and Their Optical Properties, J. PHYSICAL CHEMISTRY C114 (35): 14794-14803 SEP 9 2010

2801. Ruting, F; Uecker, H Statistics for Surface Modes of Nanoparticleswith Shape Fluctuations, COMMUNICATIONS IN COMPUTATIONALPHYSICS 8 (5): 1224-1241 NOV 2010

2800. Cabrera-Trujillo, JM; Montejano-Carrizales, JM; Rodriguez-Lopez,JL; Zhang, W; Velazquez-Salazar, JJ; Jose-Yacaman, M Nucleationand Growth of Stellated Gold Clusters: Experimental Synthesis andTheoretical Study, J. PHYSICAL CHEMISTRY C 114 (49): 21051-21060DEC 16 2010

2799. Chen, SY; Lazarides, AA Manipulation of near �eld polarization byfar �eld excitation, INTEGRATED OPTICS: DEVICES, MATERIALS, ANDTECHNOLOGIES XIV 7604: Art. No. 76041B 2010

2798. Rincon, L., Gonzalez, C.A. Extended Huckel tight-binding calcula-tions of electronic resonances in linear chains of gold atoms andclusters, (2010) J. Physical Chemistry C, 114 (48) pp. 20734-20740.

2797. Bhatt, I., Tripathi, B.N. Interaction of engineered nanoparticles withvarious components of the environment and possible strategies fortheir risk assessment, (2011) Chemosphere, 82 (3) pp. 308-317.

2796. Guan, ZP; Polavarapu, L; Xu, QH Enhanced Two-Photon Emissionin Coupled Metal Nanoparticles Induced by Conjugated Polymers,LANGMUIR 26 (23): 18020-18023 DEC 7 2010

2795. Castro-Longoria, E., Vilchis-Nestor, A.R., Avalos-Borja, M. Biosynt-hesis of silver, gold and bimetallic nanoparticles using the �la-mentous fungus Neurospora crassa, (2011) Colloids and SurfacesB: Biointerfaces, 83 (1) pp. 42-48.

2794. Lee, J.Y., Lee, J., Jang, Y.J., Lee, J., Jang, Y.H., Kochuveedu, S.T., Lee,S.S., Kim, D.H. Plasmonic nano-necklace arrays via reconstructionof diblock copolymer inverse micelle nanotemplates, (2011) So�Matter, 7 (1) pp. 57-60.

2793. Karmakar, B; Som, T; Singh, SP; Nath, M Nanometal-Glass Hy-brid Nanocomposites: Synthesis, Properties and Applications,TRANSACTIONS OF THE INDIAN CERAMIC SOCIETY 69 (3): 171-186Sp. Iss. SI JUL-SEP 2010

2792. Pamies, R; Zhu, KZ; Volden, S; Kjoniksen, AL; Karlsson, G; Glomm,WR; Nystrom, B Temperature-Induced Flocculation of Gold Parti-cles with an Adsorbed Thermoresponsive Cationic Copolymer, J.PHYSICAL CHEMISTRY C 114 (50): 21960-21968 DEC 23 2010

2791. Zopes, D., Kremer, S., Scherer, H., Belkoura, L., Pantenburg, I., Ty-rra, W., Mathur, S. Hydrolytic decomposition of tetramethylammo-nium bis(tri�uoromethyl) aurate(I), [NMe4][Au(CF3)2]: A route forthe synthesis of gold nanoparticles in aqueous medium, (2011)European J. Inorganic Chemistry, (2) pp. 273-280.

2790. Chen, J.-J., Wu, J.C.S., Wu, P.C., Tsai, D.P. Plasmonic photocatalystfor H2 evolution in photocatalytic water splitting, (2011) J. PhysicalChemistry C, 115 (1) pp. 210-216.

2789. W Jacak , J Krasnyj , J Jacak , W Donderowicz and L Jacak Me-chanism of plasmon-mediated enhancement of photovoltaic e�-ciency, 2011 J. Phys. D: Appl. Phys. 44 05530

2788. X Wen , M Yi , D Zhang , P Wang , Y Lu and H Ming Tunableplasmonic coupling between silver nano-cubes and silver nano-hole arrays, 2011 Nanotechnology 22 085203

2787. Al-Qadi, B; Saiki, T, Optical Characterization and Rotational Dyna-mics Observation of Colloidal Gold Nanorods Based on PolarizedLight Scattering Microscopy, JAPANESE J. APPLIED PHYSICS 49 (12):Art. No. 125001 2010

2786. Peng, H.-I., Miller, B.L. Recent advancements in optical DNA bio-sensors: Exploiting the plasmonic e�ects of metal nanoparticles,(2011) Analyst, 136 (3) pp. 436-447.

2785. Song, Y., Zhang, Z., Elsayed-Ali, H.E., Wang, H., Henry, L.L., Wang,Q., Zou, S., Zhang, T. Identi�cation of single nanoparticles, (2011)Nanoscale, 3 (1) pp. 31-44.

2784. Khlebtsov, B.N., Khanadeev, V.A., Maksimova, I.L., Terentyuk, G.S.,Khlebtsov, N.G. Silver nanocubes and gold nanocages: Fabricationand optical and photothermal properties, (2010) Nanotechnologiesin Russia, 5 (7-8) pp. 454-468.

2783. Kennedy, L.C., Bickford, L.R., Lewinski, N.A., Coughlin, A.J., Hu, Y.,Day, E.S., West, J.L., Drezek, R.A. A new era for cancer treatment:Gold-nanoparticle-mediated thermal therapies, (2011) Small, 7 (2)pp. 169-183.

2782. G Kyas, V May, Density matrix based microscopic theory of mole-cule metal–nanoparticle interactions: Linear absorbance and plas-mon enhancement of intermolecular excitation energy transfer, J.Chem. Phys. 134, 034701 (2011)


2781. Bahadur, N M; Furusawa, T; Sato, M; Kurayama, F; Siddiquey, I A;Suzuki, N; Fast and facile synthesis of silica coated silver nanopar-ticles by microwave irradiation, J. Colloid and Interface Science,355 (2), p.312, Mar 2011

2780. Qin, YQ; Ji, XH; Jing, J; Liu, H; Wu, HL; Yang, WS Size control over sp-herical silver nanoparticles by ascorbic acid reduction, COLLOIDSAND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS372 (1-3): 172-176 DEC 3 2010

2779. Lee, J.Y., Lee, J., Jang, Y.J., Lee, J., Jang, Y.H., Kochuveedu, S.T., Park,C., Kim, D.H. Controlling the composition of plasmonic nanoparti-cle arrays via galvanic displacement reactions on block copoly-mer nanotemplates, (2011) Chemical Communications, 47 (6) pp.1782-1784.

2778. Kyas G, May V Density matrix based microscopic theory of mole-cule metal-nanoparticle interactions: Linear absorbance and plas-mon enhancement of intermolecular excitation energy transfer, J.CHEMICAL PHYSICS 134, 034701 2011

2777. X Shao, A Agarwal, J R Rajian , N A Kotov, X Wang, Synthesis andbioevaluation of I-125-labeled gold nanorods, 2011 Nanotechno-logy 22 135102

2776. J. Grant, X. Shi, J. Alton, and D. R. S. Cumming Terahertz localizedsurface plasmon resonance of periodic silicon microring arrays, J.Appl. Phys. 109, 054903 (2011)

2775. Letnes, PA; Simonsen, I; Mills, DL, Substrate in�uence on the plas-monic response of clusters of spherical nanoparticles, PHYSICALREVIEW B 83 (7): Art. No. 075426 FEB 23 2011

2774. Chaikin, Y; Leader, H; Popovitz-Biro, R; Vaskevich, A; Rubinstein, I,Versatile Scheme for the Step-by-Step Assembly of NanoparticleMultilayers, LANGMUIR 27 (4): 1298-1307 FEB 15 2011

2773. Rincon, L; Gonzalez, CA Extended Huckel Tight-Binding Calcula-tions of Electronic Resonances in Linear Chains of Gold Atoms andClusters, J. PHYSICAL CHEMISTRY C 114 (48): 20734-20740 DEC 92010

2772. Lecarme, O; Pinedo-Rivera, T; Berton, K; Berthier, J; Peyrade, DPlasmonic coupling in nondipolar gold colloidal dimers, APPLIEDPHYSICS LETTERS 98 (8): Art. No. 083122 FEB 21 2011

2771. Ahamad, N; Ianoul, A Using Phospholipids To Control InterparticleDistance in SERS-Active Substrates, J. PHYSICAL CHEMISTRY C 115(9): 3587-3594 MAR 10 2011

2770. Fitzgerald, TM; Marciniak, MA; Nauyoks, SE Development of a tu-nable polarimetric scatterometry system in the MWIR and LWIR,REFLECTION, SCATTERING, AND DIFFRACTION FROM SURFACES II7792: Art. No. 779209 2010

2769. Meyer, SA; Le Ru, EC; Etchegoin, PG Combining Surface Plas-mon Resonance (SPR) Spectroscopy with Surface-Enhanced RamanScattering (SERS), ANALYTICAL CHEMISTRY 83 (6): 2337-2344 MAR15 2011

2768. Grant, J; Alton, J; Ma, Y; Saha, S; Cumming, DRS Multiple THzSurface Plasmon Resonances of Periodic Split Ring Arrays in Si-licon, 35TH INTERNATIONAL CONFERENCE ON INFRARED, MILLIME-TER, AND TERAHERTZ WAVES (IRMMW-THZ 2010) : - 2010

2767. T M. Fitzgerald, M A. Marciniak Full Optical Scatter Analysis forNovel Photonic and Infrared Metamaterials, Conference Procee-dings of the Society for Experimental Mechanics Series, 1, Volume2, MEMS and Nanotechnology, Volume 2, Pages 97-105

2766. J Jiang, L Zhang Rapid Microwave-Assisted Nonaqueous Synthe-sis and Growth Mechanism of AgCl/Ag, and Its Daylight-DrivenPlasmonic Photocatalysis, CHEMISTRY - A EUROPEAN JOURNAL 17,3710–3717 2011

2765. Sekhon, JS; Verma, SS Optimal Dimensions of Gold Nanorod forPlasmonic Nanosensors, PLASMONICS 6 (1): 163-169 MAR 2011

2764. Alessio P, Constantino CJL, Aroca RF, Oliveira ON SURFACE-ENHANCED RAMAN SCATTERING: METAL NANOSTRUCTURESCOATED WITH LANGMUIR-BLODGETT FILMS, J. THE CHILEANCHEMICAL SOCIETY 55, 469–478, 2010

2763. Khan, SA; Avasthi, DK; Agarwal, DC; Singh, UB; Kabiraj, D Quasi-aligned gold nanodots on a nanorippled silica surface: experimen-tal and atomistic simulation investigations, NANOTECHNOLOGY 22(23): Art. No. 235305 JUN 10 2011

2762. Romo-Herrera, JM; Alvarez-Puebla, RA; Liz-Marzan, LM Controlledassembly of plasmonic colloidal nanoparticle clusters NANOSCALE3 (4): 1304-1315 2011

2761. Abidi, W., Remita, H Gold based nanoparticles generated by ra-diolytic and photolytic methods, 2010 Recent Patents on Enginee-ring 4 (3), pp. 170-188

2760. Krahne, R., Morello, G., Figuerola, A., George, C., Deka, S., Manna,L. Physical properties of elongated inorganic nanoparticles, 2011Physics Reports 501 (3-5), pp. 75-221

2759. Ahsan, Md.S., Kim, Y.G., Lee, M.S. Colorizing of the stainless steelsurface by single-beam direct femtosecond laser writing, 2011 Pro-ceedings of SPIE - The International Society for Optical Enginee-ring 7925, art. no. 792512

2758. Wang, LX; May, V Laser pulse induced transient currents through asingle molecule, PHYSICAL CHEMISTRY CHEMICAL PHYSICS 13 (19):8755-8768 2011

2757. Si, G., Shi, W., Li, K., Ma, Z. Synthesis of PSS-capped triangularsilver nanoplates with tunable SPR, 2011 Colloids and Surfaces A:Physicochemical and Engineering Aspects 380 (1-3), pp. 257-260

2756. Chae, W.-S., Lee, H.-O., Kim, E.-M., Yu, H. Molecular sensing e�-ciency of gold-silver alloy nanowires, 2011 Bulletin of the KoreanChemical Society 32 (4), pp. 1346-1348

2755. Tuchina, ES; Tuchin, VV; Khlebtsov, BN; Khlebtsov, NG Phototoxice�ect of conjugates of plasmon-resonance nanoparticles with in-docyanine green dye on Staphylococcus aureus induced by IRlaser radiation, QUANTUM ELECTRONICS 41 (4): 354-359 2011

2754. Beyene, HT; Tichelaar, FD; Verheijen, MA; van de Sanden, MCM;Creatore, M Plasma-Assisted Deposition of Au/SiO2 Multi-layers asSurface Plasmon Resonance-Based Red-Colored Coatings, PLAS-MONICS 6 (2): 255-260 JUN 2011

2753. Sekhon, JS; Verma, SS Refractive Index Sensitivity Analysis of Ag,Au, and Cu Nanoparticles, PLASMONICS 6 (2): 311-317 JUN 2011

2752. Charles, DE; Gara, M; Aherne, D; Ledwith, DM; Kelly, JM; Blau,WJ; Brennan-Fournet, ME Scaling of Surface Plasmon Resonancesin Triangular Silver Nanoplate Sols for Enhanced Refractive IndexSensing, PLASMONICS 6 (2): 351-362 JUN 2011

2751. Zhang, Y., Yu, J., Birch, D.J.S., Chen, Y. Gold nanorods for appli-cations in biological imaging, 2011 Progress in Biomedical Opticsand Imaging - Proceedings of SPIE 7910, art. no. 79101H

2750. Tsutsui, Y; Hayakawa, T; Kawamura, G; Nogami, M Tuned longitudi-nal surface plasmon resonance and third-order nonlinear opticalproperties of gold nanorods, NANOTECHNOLOGY 22 (27): Art. No.275203 JUL 8 2011

2749. Kooij, ES; Ahmed, W; Zandvliet, HJW; Poelsema, B Localized Plas-mons in Noble Metal Nanospheroids, J. PHYSICAL CHEMISTRY C 115(21): 10321-10332 JUN 2 2011

2748. Brenier, R Bifunctional Surfaces with Superhydrophobic and Plas-monic Properties, J. PHYSICAL CHEMISTRY C 115 (21): 10544-10549JUN 2 2011

2747. Ahsan, M.S., Ahmed, F., Kim, Y.G., Lee, M.S., Jun, M.B.G. Colorizingstainless steel surface by femtosecond laser induced micro/nano-structures, 2011 Applied Surface Science 257 (17), pp. 7771-7777


2746. Liu, Q., He, X., Zhou, X., Ren, F., Xiao, X., Jiang, C., Zhou, H., Zhao,X.a , Lu, L., Qian, S. Third-order nonlinearity in Ag-nanoparticlesembedded 56GeS 2-24Ga2S3-20KBr chalcohalide glasses, 2011 J.Non-Crystalline Solids 357 (11-13), pp. 2320-2323

2745. Zhao, W., Zhao, X.-P. Relationship of surface plasmon polaritonsand nanoparticles morphology, 2011 Guangzi Xuebao/Acta Photo-nica Sinica 40 (4), pp. 556-560

2744. Han, RY; Zhang, XT; Wang, LL; Dai, R; Liu, YC Size-dependentphotochromism-based holographic storage of Ag/TiO2 nanocom-posite �lm, APPLIED PHYSICS LETTERS 98 (22): Art. No. 221905 MAY30 2011

2743. Li, S.-K., Zhang, L., Huang, F.-Z., Yu, X.-R., Xie, A.-J., Shen,Y.-H., Wang, Y. AuCl4 - ions-assisted fabrication of bimetallicPoly(ethylenimine)-Ag/Au multilayer polyelectrolyte �lm and ap-plication in electrocatalysis, 2011 Thin Solid Films 519 (16), pp.5609-5615

2742. Alessio, P., Constantino, C.J.L., Aroca, R.F., Oliveira Jr., O.N. Surface-enhanced raman scattering: Metal nanostructures coated withlangmuir-blodgett �lms, 2010 J. the Chilean Chemical Society 55(4), pp. 469-478

2741. DAgostino S, Della Sala F Silver Nanourchins in Plasmonics: Theo-retical Investigation on the Optical Properties of the Branches, J.PHYSICAL CHEMISTRY C 115 (24), pp. 11934-11940 2011

2740. Zheng, Z., Tang, S., Vongehr, S., Meng, X. Square-wave electro-chemical growth of lying three-dimensional silver dendrites withhigh surface-enhanced Raman scattering activities, 2011 MaterialsChemistry and Physics 129 (1-2), pp. 594-598

2739. Hartland, G.V. Optical studies of dynamics in noble metal nanos-tructures 2011 Chemical Reviews 111 (6), pp. 3858-3887

2738. Han, R., Zhang, X., Wang, L., Dai, R., Liu, Y. Size-dependentphotochromism-based holographic storage of Ag/ TiO 2 nanocom-posite �lm, 2011 Applied Physics Letters 98 (22), art. no. 221905

2737. Chen, HJ; Ming, T; Zhang, SR; Jin, Z; Yang, BC; Wang, JF E�ect ofthe Dielectric Properties of Substrates on the Scattering Patternsof Gold Nanorods, ACS NANO 5 (6): 4865-4877 JUN 2011

2736. Swanglap, P; Slaughter, LS; Chang, WS; Willingham, B; Khanal, BP;Zubarev, ER; Link, S Seeing Double: Coupling between SubstrateImage Charges and Collective Plasmon Modes in Self-AssembledNanoparticle Superstructures, ACS NANO 5 (6): 4892-4901 JUN2011

2735. Zhang, Y., Yu, J., Ryderfors, L., Birch, D.J.S., Chen, Y. Fluorescenceintensity and lifetime imaging of gold nanorods in cells, 2011 5thInternational Conference on Bioinformatics and Biomedical Engi-neering, iCBBE 2011 , art. no. 5780219

2734. Zhang, D., Liu, X., Wang, X. Monodispersed protein stabilized silvernanoprisms: Synthesis, optical properties and surface-enhancedRaman scattering application, 2011 Materials Science Forum 688,pp. 162-167

2733. Anghinol�, L; Moroni, R; Mattera, L; Canepa, M; Bisio, F Flexi-ble Tuning of Shape and Arrangement of Au Nanoparticles in 2-Dimensional Self-Organized Arrays: Morphology and PlasmonicResponse, J. PHYSICAL CHEMISTRY C 115 (29): 14036-14043 2011

2732. Borensztein, Y; Delannoy, L; Barrera, RG; Louis, C Kinetics of theplasmon optical response of Au nanoparticles/TiO(2) catalyst un-der O(2) and H(2) followed by di�erential di�use re�ectance spec-troscopy, EUROPEAN PHYSICAL JOURNAL D 63 (2): 235-240 2011

2731. Kansal, SK; Ali, AH; Kapoor, S; Bahnemann, DW Synthesis of �owerlike zinc oxide nanostructure and its application as a photocatalyst,SEPARATION AND PURIFICATION TECHNOLOGY 80 (1): 125-130 2011

2730. Mendoza-Galvan, A; Jarrendahl, K; Dmitriev, A; Pakizeh, T; Kall, M;Arwin, H Optical response of supported gold nanodisks, OPTICSEXPRESS 19 (13): 12093-12107 JUN 20 2011

2729. Sadeghi, SM Plasmonic Metaresonance Nanosensors: Ultrasensiti-ve Tunable Optical Sensors Based on Nanoparticle Molecules, IEEETRANSACTIONS ON NANOTECHNOLOGY 10 (3): 566-571 2011

2728. Khunsin, W; Brian, B; Dorfmuller, J; Esslinger, M; Vogelgesang, R;Etrich, C; Rockstuhl, C; Dmitriev, A; Kern, K Long-Distance IndirectExcitation of Nanoplasmonic Resonances, NANO LETTERS 11 (7):2765-2769 2011

2727. Chau, YF; Jiang, ZH Plasmonics E�ects of Nanometal Embedded ina Dielectric Substrate, PLASMONICS 6 (3): 581-589 2011

2726. Ortiz, N; Skrabalak, SE Controlling the Growth Kinetics of Na-nocrystals via Galvanic Replacement: Synthesis of Au Tetrapodsand Star-Shaped Decahedra, CRYSTAL GROWTH & DESIGN 11 (8):3545-3550 10.1021/cg200484m AUG 2011

2725. Jiang, CF; Guan, ZP; Lim, SYR; Polavarapu, L; Xu, QH Two-photonratiometric sensing of Hg(2+) by using cysteine functionalized Agnanoparticles, NANOSCALE 3 (8): 3316-3320 2011

2724. Khan, ZA; Kumar, R; Mohammed, WS; Hornyak, GL; Dutta, J Opticalthin �lm �lters of colloidal gold and silica nanoparticles preparedby a layer-by-layer self-assembly method, J. MATERIALS SCIENCE46 (21): 6877-6882 2011

2723. Zhang, DH; Liu, XH; Wang, X Green synthesis of graphene oxi-de sheets decorated by silver nanoprisms and their anti-bacterialproperties, J. INORGANIC BIOCHEMISTRY 105 (9): 1181-1186 2011

2722. Grigorchuk N I.; Tomchuk P M. Optical and transport properties ofspheroidal metal nanoparticles with account for the surface e�ect,PHYSICAL REVIEW B 84, 085448 2011

2721. Ye, D., Mutisya, S., Bertino, M. Enhancement of electric �eld andRaman scattering by Ag coated Ni nanotips APPLIED PHYSICS LET-TERS 99, 081909 2011

2720. Alsawa�a, M., Wahbeh, M., Misra, S., Truong, V.-V. The e�ect of thetarget size on the optical response of ultra�ne metallic sphericalparticles arranged in a two-dimensional array, Proceedings of SPIE- The International Society for Optical Engineering 8007, art. no.80071H 2011

2719. Albella, P., Garcia-Cueto, B., Gonzalez, F., Moreno, F., Wu, P.C., Kim,T.-H., Brown, A., Yang, Y., Everitt, H.O., Videen, G. Shape matters:Plasmonic nanoparticle shape enhances interaction with dielectricsubstrate, Nano Letters 11 (9), pp. 3531-3537 2011

2718. Albella, P; Saiz, JM; Gonzalez, F; Moreno, F Surface monitoringbased on light scattering by metal nanosensors, J. QUANTITATIVESPECTROSCOPY & RADIATIVE TRANSFER 112 (13): 2046-2058 SI 2011

2717. Shou, QH; Guo, C; Yang, LR; Jia, LW; Liu, CZ; Liu, HZ E�ect of pHon the single-step synthesis of gold nanoparticles using PEO-PPO-PEO triblock copolymers in aqueous media, J. COLLOID AND IN-TERFACE SCIENCE 363 (2): 481-489 2011

2716. Osorio-Roman, I O.; Ortega-Vasquez, V; Vargas, C V, Aroca, RFSurface-Enhanced Spectra on D-Gluconic Acid Coated Silver Na-noparticles, APPLIED SPECTROSCOPY 65, 838-843 2011

2715. Pandoli, O; Massi, A; Cavazzini, A, Spada, GP, Cui, DX Circular di-chroism and UV-Vis absorption spectroscopic monitoring of pro-duction of chiral silver nanoparticles templated by guanosine 5’-monophosphate, ANALYST 136, 3713-3719 2011

2714. Ocwieja, M., Adamczyk, Z., Morga, M., Michna, A. High den-sity silver nanoparticle monolayers produced by colloid self-assembly on polyelectrolyte supporting layers, J. Colloid and In-terface Science 364 (1), pp. 39-48 2011

2713. Brahma, R; Reddy, GM; Lakshmi, PA; Singh, S; Krishna, MG Contro-lled Nanostructuring of Ag Films by Ion Beam Sputter Depositionfor Surface Plasmon Resonance Applications, J. NANOSCIENCE ANDNANOTECHNOLOGY 11 (8): 6843-6851 2011


2712. Asiala, SM; Schultz, ZD Characterization of hotspots in a highlyenhancing SERS substrate, ANALYST 136 (21): 4472-4479 2011

2711. David, C., Garcıa De Abajo, F.J. Spatial nonlocality in the opticalresponse of metal nanoparticles, 2011 J. Physical Chemistry C 115(40), pp. 19470-19475

2710. Yan, C., Chen, Y., Jin, A., Wang, M., Kong, X., Zhang, X., Ju, Y., Han,L. Molecule oxygen-driven shaping of gold islands under thermalannealing, Applied Surface Science 258 (1), pp. 377-381 2011

2709. Dhoni, MS; Ji, W Extension of Discrete-Dipole Approximation Mo-del to Compute Nonlinear Absorption in Gold Nanostructures, J.PHYSICAL CHEMISTRY C 115 (42): 20359-20366 2011

2708. Lazzari, R., Jupille, J. Quantitative analysis of nanoparticle growththrough plasmonics, Nanotechnology 22 (44), art. no. 445703 2011

2707. Krenek, T; Fajgar, R; Medlin, R; Klementova, M; Novotny, F; Drinek,V Fabrication of Cu(x)Ge(y) Nanoplatelets, J. NANOSCIENCE ANDNANOTECHNOLOGY 11 (9): 8279-8283 (2011)

2706. Fischer, J; Vogel, N; Mohammadi, R; Butt, HJ; Landfester, K; Weiss,CK; Kreiter, M Plasmon hybridization and strong near-�eld enhan-cements in opposing nanocrescent dimers with tunable resonan-ces, NANOSCALE 3 (11): 4788-4797 (2011)

2705. Estrada, L.C., Gratton, E. 3D nanometer images of biological �bersby directed motion of gold nanoparticles, 2011 Nano Letters 11 (11),pp. 4656-4660

2704. Pescaglini, A; Emanuele, U; O’Riordan, A; Iacopino, D Dielectrop-horetic Self-Assembly of Au Nanorods for Sensing Applications,SENSORS & THEIR APPLICATIONS XVI 307 2011 J. Physics: Confe-rence Series Volume 307, Issue 1, 2011, Article number 012051

2703. Kodali, A.K., Bhargava, R. E�ect of non-speci�city in shape, size,and dielectric properties on electromagnetic extinction and opti-cal �eld enhancement from spherical nanolayered metal-dielectricparticles, 2011 Theoretical Chemistry Accounts 130 (4-6), pp. 991-1000

2702. Dementeva, OV; Rudoy, VM Colloidal synthesis of new silver-basednanostructures with tailored localized surface plasmon resonance,COLLOID JOURNAL, 73 (6):724-742; DEC 2011

2701. Tesler, AB; Chuntonov, L; Karakouz, T; Bendikov, TA; Haran, G; Vas-kevich, A; Rubinstein, I Tunable Localized Plasmon Transducers Pre-pared by Thermal Dewetting of Percolated Evaporated Gold Films,J. PHYSICAL CHEMISTRY C, 115 (50):24642-24652 2011

2700. Yuan, L; Zhu, J; Ren, YJ; Bai, SW Sectional area-dependent plasmo-nic shi�ing in the truncated process of silver nanoparticles: fromcube to octahedron, J. NANOPARTICLE RESEARCH, 13 (12):6305-6312; 10.1007/s11051-011-0600-z DEC 2011

2699. Tamayo-Rivera, L; Fernandez-Hernandez, RC; Rodriguez-Fernandez, L; Rangel-Rojo, R; Oliver, A; Reyes-Esqueda, JAWavelength-varying third-order nonlinear optical response ofAg nanoparticles-Si quantum dots integrated plasmonic system,OPTICAL MATERIALS EXPRESS, 1 (5):980-989; SEP 1 2011

2698. Chuntonov, L; Bar-Sadan, M; Houben, L; Harant, G CorrelatingElectron Tomography and Plasmon Spectroscopy of Single No-ble Metal Core-Shell Nanoparticles, NANO LETTERS, 12 (1):145-150;10.1021/nl204125d JAN 2012

2697. Kazuma, E; Tatsuma, T Photoinduced reversible changes in morp-hology of plasmonic Ag nanorods on TiO(2) and application to ver-satile photochromism, CHEMICAL COMMUNICATIONS, 48 (12):1733-1735 (2012).

2696. Li, ZQ; Chen, S; Li, JJ; Liu, QQ; Sun, Z; Wang, ZB;Huang, SM Plasmon-enhanced upconversion �uorescence inNaYF(4):Yb/Er/Gd nanorods coated with Au nanoparticles or na-noshells, J. APPLIED PHYSICS, 111 (1): 014310 2012

2695. Sekhon, JS; Verma, SS Tunable plasmonic properties of silver na-norods for nanosensing applications, J. MATERIALS SCIENCE, 47(4):1930-1937 (2012)

2694. Tiemblo, P; Benito, E; Garcia, N; Esteban-Cubillo, A; Pina-Zapardiel,R; Pecharroman, C Multiscale gold and silver plasmonic plastics bymelt compounding, RSC ADVANCES, 2 (3):915-919 (2012)

2693. Miyamoto, T; Saito, S; Isobe, T; Nakajima, A; Matsushita,S Six-rayed star-like nanostructures in prospective plasmo-nic devices, CHEMICAL COMMUNICATIONS, 48 (11):1668-1670;10.1039/c2cc16353e 2012

2692. Tan, G., Onur, M.A., Saglam, N. Nano gold and biomedicine: Scien-ti�c letter — [Nano altidotlessn ve biyotidotlessp], Turkiye Klini-kleri J. Medical Sciences 32 (2) , pp. 499-506 2012

2691. Vanherck, K., Verbiest, T., Vankelecom, I. Comparison of two synt-hesis routes to obtain gold nanoparticles in polyimide, J. PhysicalChemistry C 116 (1) , pp. 115-125 2012

2690. Alsawa�a, M., Wahbeh, M., Truong, V.-V. Simulated optical proper-ties of gold nanocubes and nanobars by discrete dipole approxi-mation, (2012) J. Nanomaterials, 2012, art. no. 283230

2689. Kochuveedu, S.T., Kim, D.-P., Kim, D.H. Surface-plasmon-inducedvisible light photocatalytic activity of TiO2 nanospheres decoratedby au nanoparticles with controlled con�guration, (2012) J. Physi-cal Chemistry C, 116 (3) pp. 2500-2506.

2688. Amendola, V., Meneghetti, M. Exploring how to increase the bright-ness of surface-enhanced raman spectroscopy nanolabels: Thee�ect of the raman-active molecules and of the label size, (2012)Advanced Functional Materials, 22 (2) pp. 353-360.

2687. Haggui, M; Dridi, M; Plain, J; Marguet, S; Perez, H; Schatz, GC; Wie-derrecht, GP; Gray, SK; Bachelot, R Spatial Con�nement of Elec-tromagnetic Hot and Cold Spots in Gold Nanocubes, ACS NANO, 6(2):1299-1307; 10.1021/nn2040389 FEB 2012

2686. Serpone, N., Emeline, A.V. Semiconductor photocatalysis - Past,present, and future outlook, J. Physical Chemistry Letters 3 (5) ,pp. 673-677, 2012

2685. Chen, R., Li, D., Hu, H., Zhao, Y., Wang, Y., Wong, N., Wang, S.,Zhang, Y; Hu, J; Shen, ZX; Xiong, Q. Tailoring optical propertiesof silicon nanowires by au nanostructure decorations: EnhancedRaman scattering and photodetection, J. Physical Chemistry C 116(7) , pp. 4416-4422, 2012

2684. Mota-Santiago, PE; Crespo-Sosa, A; Jimenez-Hernandez, JL;Sanchez-Dena, O; Fernandez-Hernandez, RC; Reyes-Esqueda, JA;Oliver, A Linear and non-linear optical properties of metallic na-nocrystals in sapphire, 22ND CONGRESS OF THE INTERNATIONALCOMMISSION FOR OPTICS: LIGHT FOR THE DEVELOPMENT OF THEWORLD, 8011 10.1117/12.903344 2011

2683. Cyrankiewicz, M; Kruszewski, S Study of optical and physicochemi-cal properties of colloidal silver nanoparticles as an e�cient subs-trate for SERS, 15TH INTERNATIONAL SEMINAR ON PHYSICS ANDCHEMISTRY OF SOLIDS, 289 10.1088/1742-6596/289/1/0120162011

2682. Oo, T.Z., Mathews, N., Xing, G., Wu, B., Xing, B., Wong, L.H., Sum,T.C., Mhaisalkar, S.G. Ultra�ne gold nanowire networks as plasmo-nic antennae in organic photovoltaics, (2012) J. Physical ChemistryC, 116 (10) pp. 6453-6458.

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2680. Xia, Z.-R., Li, R.-Q. Fluorescence enhancement of CdTe nanocys-tals induced by Ag/TiO 2 core-shell nanoparticles, (2012) GuangziXuebao/Acta Photonica Sinica, 41 (2) pp. 166-169.


2679. Cardoso-Avila, P.E., Pichardo-Molina, J.L., Upendra Kumar, K.,Barbosa-Sabanero, G., Barbosa-Garcia, O. Gold nanoparticles sur-face modi�cation using BSA and cysteine, (2011) Proceedings ofSPIE - The International Society for Optical Engineering, 8011, art.no. 801192

2678. Agarwala, S., Ho, G.W. Self-ordering anodized nanotubes: Enhan-cing the performance by surface plasmon for dye-sensitized solarcell, (2012) J. Solid State Chemistry, 189 pp. 101-107.

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2675. Pan�lova, EV; Khlebtsov, BN; Burov, AM; Khlebtsov, NG Study of Pol-yol Synthesis Reaction Parameters Controlling High Yield of SilverNanocubes, Pan�lova, E. V.; Khlebtsov, B. N.; Burov, A. M.; Khleb-tsov, N. G., Colloid J, 74 (1):99-109; 10.1134/S1061933X11060147 FEB2012

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2673. Qiu, LQ; Saravanamuttu, K Optical self-trapping in a photopolymerdoped with Ag nanoparticles: a single-step route to metallodielec-tric cylindrical waveguides, J Opt Soc Am B, 29 (5):1085-1093; MAY1 2012

2672. Bae, G.-T., Aikens, C.M. Time-dependent density functional theorystudies of optical properties of Ag nanoparticles: Octahedra, trun-cated octahedra, and icosahedra, 2012 J. Physical Chemistry C 116(18) , pp. 10356-10367

2671. Liu, X.W., Lin, J., Jiang, T.F., Zhu, Z.F., Zhan, Q.Q., Qian, J., He, S.Surface plasmon properties of hollow AuAg alloyed triangular na-noboxes and its applications in SERS imaging and potential drugdelivery, 2012 Progress in Electromagnetics Research 128 , pp. 35-53

2670. Rai, VN; Srivastava, AK; Mukherjee, C; Deb, SK Surface enhancedabsorption and transmission from dye coated gold nanoparticlesin thin �lms, APPLIED OPTICS, 51 (14):2606-2615; MAY 10 2012

2669. Reinhardt, C; Evlyukhin, AB; Cheng, W; Gaidukeviciute, A; Kuz-netsov, AI; Zywietz, U; Chichkov, BN Optical sensing elements basedon ordered semiconductor and metal nanoparticle arrays and sur-face plasmons, SMART SENSOR PHENOMENA, TECHNOLOGY, NET-WORKS, AND SYSTEMS INTEGRATION 2012, 8346 Proceedings ofSPIE - The International Society for Optical Engineering

2668. Choi, H; Chen, WT; Kamat, PV Know Thy Nano Neighbor. Plas-monic versus Electron Charging E�ects of Metal Nanoparti-cles in Dye-Sensitized Solar Cells, ACS NANO, 6 (5):4418-4427;10.1021/nn301137r MAY 2012

2667. Nedyalkov, N.N., Atanasov, P.A., Toshkova, R.A., Gardeva, E.G., Yos-sifova, L.S., Alexandrov, M.T., Karashanova, D. Laser heating ofgold nanoparticles: Photothermal cancer cell therapy, 2012, Pro-gress in Biomedical Optics and Imaging - Proceedings of SPIE 8427, art. no. 84272P

2666. Mendelsberg, R.J., Garcia, G., Li, H., Manna, L., Milliron, D.J. Un-derstanding the plasmon resonance in ensembles of degeneratelydoped semiconductor nanocrystals, 2012, J. Physical Chemistry C116 (22) , pp. 12226-12231

2665. Chen, T.-H., Jean, R.-D., Chiu, K.-C., Chen, C.-H., Liu, D.-M. Trans-parent SiO 2-Ag core-satellite nanoparticle assembled layer forplasmonic-based chemical sensors, (2012) Applied Physics Letters,100 (22), art. no. 223101

2664. Anghinol�, L; Mattera, L; Canepa, M; Bisio, F Plasmon dispersionin self-organized Au nanoparticle arrays, PHYSICAL REVIEW B, 85(23):10.1103/PhysRevB.85.235426 JUN 12 2012

2663. Newhouse, RJ; Zhang, JZ Optical Properties and Applications ofShape-Controlled Metal Nanostructures, REVIEWS IN PLASMONICS2010, 205-238; 2012

2662. Cortie, MB; Liu, FG; Arnold, MD; Niidome, Y Multimode Reso-nances in Silver Nanocuboids, LANGMUIR, 28 (24):9103-9112;10.1021/la300407u JUN 19 2012

2661. Eguchi, M; Mitsui, D; Wu, HL; Sato, R; Teranishi, T Simple ReductantConcentration-Dependent Shape Control of Polyhedral Gold Nano-particles and Their Plasmonic Properties, LANGMUIR, 28 (24):9021-9026; 10.1021/la3002114 JUN 19 2012

2660. Evlyukhin, AB; Reinhardt, C; Chichkov, BN Multipole contributionsinto resonant scattering of light by nonspherical nanoparticlesusing the discrete dipole approximation, Editors: Andrews DL; Nun-zi JM; Ostendorf A, NANOPHOTONICS IV, 8424 10.1117/12.9222952012

2659. Gong, JX; Zhou, F; Li, ZY; Tang, ZY Synthesis of Au/Ag Core-ShellNanocubes Containing Varying Shaped Cores and Their Locali-zed Surface Plasmon Resonances, LANGMUIR, 28 (24):8959-8964;10.1021/la204684u JUN 19 2012

2658. Haggui, M; Dridi, M; Plain, J; Marguet, S; Perez, H; Schatz, GC;Wiederrecht, GP; Gray, SK; Bachelot, R Near-�eld optical proper-ties of Au-Nanocubes: con�nement of hot and cold spots, Editors:Andrews DL; Nunzi JM; Ostendorf A, NANOPHOTONICS IV, 842410.1117/12.922414 2012 Proceedings of SPIE - The International So-ciety for Optical Engineering 8424 , art. no. 84240M

2657. Ji, A; Sangita; Sharma, RP A study of nanoellipsoids for thin-�lmplasmonic solar cell applications, J. PHYSICS D-APPLIED PHYSICS,45 (27):10.1088/0022-3727/45/27/275101 JUL 11 2012

2656. Nedyalkov, NN; Atanasov, PA; Toshkova, RA; Gardeva, EG; Yossifova,LS; Alexandrov, MT; Karashanova, D Laser heating of gold nano-particles: photothermal cancer cell therapy, Editors: Popp J; DrexlerW; Tuchin VV; Matthews DL BIOPHOTONICS: PHOTONIC SOLUTIONSFOR BETTER HEALTH CARE III, 8427 10.1117/12.921776 2012

2655. Macias, D; Adam, PM; Ruiz-Cortes, V; Rodriguez-Oliveros, R;Sanchez-Gil, JA Heuristic optimization for the design of plasmonicnanowires with speci�c resonant and scattering properties, OPTICSEXPRESS, 20 (12):13146-13163; JUN 4 2012

2654. Chae, W.-S., Kim, E.-M., Yu, H., Jeon, S., Jung, J.-S. Helix-coiledgold nanowires for molecular sensing, 2012, J. Nanoscience andNanotechnology 12 (4) , pp. 3501-3505

2653. Dengler, S., Kubel, C., Schwenke, A., Ritt, G., Eberle, B. Near- ando�-resonant optical limiting properties of goldsilver alloy nano-particles for intense nanosecond laser pulses, 2012, J. Optics (Uni-ted Kingdom) 14 (7) , art. no. 075203

2652. Cao, M; Wang, M; Gu, N Plasmon Singularities from Metal Nano-particles in Active Media: In�uence of Particle Shape on the GainThreshold, PLASMONICS, 7 (2):347-351; 10.1007/s11468-011-9313-5JUN 2012

2651. Lumdee, C., Toroghi, S., Kik, P.G. Post-fabrication voltage contro-lled resonance tuning of nanoscale plasmonic antennas, 2012, ACSNano 6 (7) , pp. 6301-6307

2650. Myroshnychenko, V., Nelayah, J., Adamo, G., Geuquet, N.,Rodriguez-Fernandez, J., Pastoriza-Santos, I., MacDonald, K.F., (...),Garcia De Abajo, F.J. Plasmon spectroscopy and imaging of indi-vidual gold nanodecahedra: A combined optical microscopy, cat-hodoluminescence, and electron energy-loss spectroscopy study,2012, Nano Letters 12 (8) , pp. 4172-4180


2649. Almeida, E; Moreira, ACL; Brito-Silva, AM; Galembeck, A; de Melo,CP; Menezes, LD; de Araujo, CB Ultrafast dephasing of localizedsurface plasmons in colloidal silver nanoparticles: the in�uenceof stabilizing agents, APPLIED PHYSICS B-LASERS AND OPTICS, 108(1):9-16; 10.1007/s00340-012-5057-y JUL 2012

2648. K. Kolwas, A. Derkachova, Damping rates of surface plasmons forparticles of size from nano- to micrometers; reduction of the non-radiative decay, J. Quantitative Spectroscopy and Radiative Trans-fer 114 , pp. 45-55 (2013)

2647. Gnanavel, M.; Sunandana, C.S. Self-Assembled AgatAgI Core-ShellNanoparticles in Iodized Ag/PVA Thin Films: Transmission ElectronMicroscopy, Optical Absorption and Photoluminescence Studies,Advanced Science, Engineering and Medicine, Volume 5, Number3, March 2013 , pp. 206-216(11)

2646. A de Matos, R; da Silva Cordeiro, T.; Elgul Samad, R; Dias Vieira,N; Coronato Courrol, L. Green synthesis of gold nanoparticles ofdi�erent sizes and shapes using agar–agar water solution andfemtosecond pulse laser irradiation, Applied Physics A: MaterialsScience & Processing, 2012 109 (3):737-741

2645. Sekhon, J.S., Verma, S.S. Rational Selection of Nanorod Plasmons:Material, Size, and Shape Dependence Mechanism for Optical Sen-sors, 2012, Plasmonics 7 (3) , pp. 453-459

2644. Borodinova, T.I., Kravets, V.G., Romanyuk, V.R. Gold nanocrystalsas a substrate for microraman spectroscopy, 2012, J. Nano- andElectronic Physics 4 (2) , art. no. 02039 , pp. 02039-1-02039-8

2643. Beyene, H.T., Weber, J.W., Verheijen, M.A., van de Sanden, M.C.M.,Creatore, M. Real time in situ spectroscopic ellipsometry of thegrowth and plasmonic properties of au nanoparticles on SiO 2,2012, Nano Research 5 (8) , pp. 513-520

2642. Odom, T.W., You, E.-A., Sweeney, C.M. Multiscale plasmonic na-noparticles and the inverse problem, (2012) J. Physical ChemistryLetters, 3 (18) pp. 2611-2616.

2641. Huang, F., Wang, X., Xu, J., Chen, D., Wang, Y. A plasmonic nano-antenna with controllable resonance frequency: Cu 1.94S-ZnS di-meric nanoheterostructure synthesized in solution, (2012) J. Mate-rials Chemistry, 22 (42) pp. 22614-22618.

2640. Han, F; Guan, ZP; Tan, TS; Xu, QH Size-Dependent Two-Photon Ex-citation Photoluminescence Enhancement in Coupled Noble-MetalNanoparticles, ACS APPLIED MATERIALS & INTERFACES, 4 (9):4746-4751; 10.1021/am301121k SEP 2012

2639. Kim, M; Lee, YW; Kim, D; Lee, S; Ryoo, SR; Min, DH; Lee, SB;Han, SW Reshaping Nanocrystals for Tunable Plasmonic Subs-trates, ACS APPLIED MATERIALS & INTERFACES, 4 (9):5038-5043;10.1021/am3015058 SEP 2012

2638. Karvianto; Chow, GM Size-dependent transformation from Ag tem-plates to Au-Ag nanoshells via galvanic replacement reactionin organic medium, J. Nanopart. Res., 14 (10):10.1007/s11051-012-1186-9 OCT 2012

2637. Guan, Z., Li, S., Cheng, P.B.S., Zhou, N., Gao, N., Xu, Q.-H. Band-selective coupling-induced enhancement of two-photon photolu-minescence in gold nanocubes and its application as turn-on �uo-rescent probes for cysteine and glutathione, 2012, ACS AppliedMaterials and Interfaces 4 (10) , pp. 5711-5716

2636. Emeline, AV; Kuznetsov, VN; Ryabchuk, VK; Serpone, N On the wayto the creation of next generation photoactive materials, EnvironSci Pollut R, 19 (9):3666-3675; 1 2012

2635. Liu, H., Zhang, X., Shen, Y., Zhang, L., Wang, J., Zhu, F., Zhang, B.,Liu, C. Tailoring the size distribution of ag nanoparticles embeddedin SiO 2 by Xe ion postirradiation, 2012, Applied Physics Express5 (10) , art. no. 105002

2634. Tranda�lovic, L.V., Luyt, A.S., Bibic, N., Dimitrijevic-Brankovic, S.,Georges, M.K., Radhakrishnan, T., Djokovic, V. Formation of nano-plate silver particles in the presence of polyampholyte copolymer,2012, Colloids and Surfaces A: Physicochemical and EngineeringAspects 414 , pp. 17-25

2633. Tan, G., Onur, M.A., Saglam, N. Utilization of gold nanostructuresin biomedical applications, 2012, Turkish J. Biology 36 (6) , pp.607-621

2632. Logsdail, A.J., Johnston, R.L. Predicting the optical properties ofcore-shell and Janus segregated Au-M nanoparticles (M = Ag, Pd),2012, J. Physical Chemistry C 116 (44) , pp. 23616-23628

2631. Grigorchuk, N.I. E�ect of surface plasmon linewidth oscillations onoptical properties of metal nanoparticle embedded in a dielectricmedia, 2012, J. Physical Chemistry C 116 (44) , pp. 23704-23712

2630. Zhang, Yinan; Yu, Jun; Birch, David. J. S.; et al. Two-Photon Lumines-cence and Energy Transfer of Gold Nanorods for Cell Imaging, 12thIEEE International Conference on Nanotechnology (IEEE-NANO) Lo-cation: Birmingham, ENGLAND Date: AUG 20-23, 2012 2012 12THIEEE CONFERENCE ON NANOTECHNOLOGY (IEEE-NANO)

2629. Niesen, B., Rand, B.P., Van Dorpe, P., Cheyns, D., Shen, H., Maes, B.,Heremans, P. Near-�eld interactions between metal nanoparticlesurface plasmons and molecular excitons in thin-�lms. Part I: Ab-sorption, 2012, J. Physical Chemistry C 116 (45) , pp. 24206-24214

2628. Xu, Q., Liu, F., Meng, W., Huang, Y. Plasmonic core-shell metal-organic nanoparticles enhanced dye-sensitized solar cells, 2012,Optics Express 20 (23) , pp. A898-A907

2627. Chakravadhanula, V.S.K., Kubel, C., Hrkac, T., Zaporojtchenko, V.,Strunskus, T., Faupel, F., Kienle, L. Surface segregation in TiO 2-based nanocomposite thin �lms, 2012, Nanotechnology 23 (49) ,art. no. 495701

2626. Bottomley, A., Prezgot, D., Ianoul, A. Plasmonic properties of silvernanocube monolayers on high refractive index substrates, (2012)Applied Physics A: Materials Science and Processing, 109 (4) pp.869-872.

2625. De Matos, R.A., Da Silva Cordeiro, T., Samad, R.E., Vieira Jr., N.D.,Courrol, L.C. Green synthesis of gold nanoparticles of di�erentsizes and shapes using agar-agar water solution and femtosecondpulse laser irradiation, (2012) Applied Physics A: Materials Scienceand Processing, 109 (3) pp. 737-741

2624. Szacilowski, Konrad Low-Dimensional Metals and Semiconductors,John Wiley & Sons, Ltd, doi: 10.1002/9780470710883.ch4, pp 63–117 (2012)

2623. Fernandez-Hernandez, RC; Gleason-Villagran, R; Torres-Torres, C;Rodriguez-Fernandez, L; Crespo-Sosa, A; Cheang-Wong, JC; Lopez-Suarez, A; Rangel-Rojo, R; Oliver, A; Reyes-Esqueda, JA On thephysical contributions to the third-order nonlinear optical respon-se in plasmonic nanocomposites, J. OPTICS, 14 (12):10.1088/2040-8978/14/12/125203 DEC 2012

2622. Qiu, LQ; Saravanamuttu, K Modulation instability of incandescentlight in a photopolymer doped with Ag nanoparticles, J. OPTICS,14 (12):10.1088/2040-8978/14/12/125202 DEC 2012

2621. Qiu, WJ; DeLacy, BG; Johnson, SG; Joannopoulos, JD; Soljacic, MOptimization of broadband optical response of multilayer nanosp-heres, OPTICS EXPRESS, 20 (16):18494-18504; JUL 30 2012

2620. Siddhanta, S; Thakur, V; Narayana, C; Shivaprasad, SM UniversalMetal-Semiconductor Hybrid Nanostructured SERS Substrate forBiosensing, ACS APPLIED MATERIALS & INTERFACES, 4 (11):5807-5812; 10.1021/am302102p NOV 2012

2619. Hutter, T., Elliott, S.R., Mahajan, S. Interaction of metallic nanopar-ticles with dielectric substrates: E�ect of optical constants, 2013,Nanotechnology 24 (3) , art. no. 035201


2618. Chen, J.-J., Wu, J.C.S., Wu, P.C., Tsai, D.P. Improved photocatalyticactivity of shell-isolated plasmonic photocatalyst Au at SiO2/TiO2by promoted LSPR, 2012, J. Physical Chemistry C 116 (50) , pp.26535-26542

2617. Bianco, G.V., Giangregorio, M.M., Losurdo, M., Capezzuto, P., Bruno,G. Supported faceted gold nanoparticles with tunable surface plas-mon resonance for NIR-SERS, 2012, Advanced Functional Materials22 (24) , pp. 5081-5088

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2506. Tsuboi, A., Nakamura, K., Kobayashi, N. Chromatic characterizationof novel multicolor re�ective display with electrochemically size-controlled silver nanoparticles, 2013, Journal of the Society forInformation Display 21 (8), 361-367

2505. Can-Uc, B; Rangel-Rojo, R; Rodriguez-Fernandez, L; Oliver, A Po-larization selectable nonlinearities in elongated silver nanoparti-cles embedded in silica, OPTICAL MATERIALS EXPRESS, 3 (12):2012-2021; 2013

2504. Wen, Y.-H., Huang, R., Zeng, X.-M., Shao, G.-F., Sun, S.-G. Tetrahe-xahedral Pt-Pd alloy nanocatalysts with high-index facets: An ato-mistic perspective on thermodynamic and shape stabilities, 2014,J Materials Chem. A 2 (5), 1375-1382

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2501. Ahmed, W; Glass, C; Kooij, ES; van Ruitenbeek, JM Tuning theoriented deposition of gold nanorods on patterned substrates, NA-NOTECHNOLOGY, 25 (3):10.1088/0957-4484/25/3/035301 JAN 242014

2500. Camelio, S; Vandenhecke, E; Rousselet, S; Babonneau, D Optimi-zation of growth and ordering of Ag nanoparticle arrays on ripplepatterned alumina surfaces for strong plasmonic coupling, NA-NOTECHNOLOGY, 25 (3):10.1088/0957-4484/25/3/035706 JAN 242014

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2497. Sanchez-Dena, O; Mota-Santiago, P; Tamayo-Rivera, L; Garcia-Ramirez, EV; Crespo-Sosa, A; Oliver, A; Reyes-Esqueda, JA Size-andshape-dependent nonlinear optical response of Au nanoparticlesembedded in sapphire, OPTICAL MATERIALS EXPRESS, 4 (1):92-100;10.1364/OME.4.0092 JAN 1 2014

2496. Sinha, B; Goswami, T; Paul, S; Misra, A The impact of surfacestructure and band gap on the optoelectronic properties of Cu2Onanoclusters of varying size and symmetry, RSC ADVANCES, 4(10):5092-5104; 10.1039/c3ra45387a 2014

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2493. Zhang, Y., Chen, Y. Applications of gold nanorods based on locali-zed surface plasmon resonance in Plasmons: Structure, Propertiesand Applications, Pages 117-130, Editors Turunen, A.E., Niemi, J.O.,ISBN: 978-162100060-0, Nova Science Publishers, Inc.

2492. Tran, Q.T., Hoa, H.T.M., Yoo, D.-H., Cuong, T.V., Hur, S.H., Chung,J.S., Kim, E.J., Kohl, P.A. text itReduced graphene oxide as an over-coating layer on silver nanostructures for detecting NH3 gas atroom temperature, Sensors and Actuators, B: Chemical Volume194, April 2014, Pages 45-50

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2490. Awang, A., Ghoshal, S.K., Sahar, M.R., Ari�n, R., Nawaz, F. Non-spherical gold nanoparticles mediated surface plasmon resonancein Er3+ doped zinc-sodium tellurite glasses: Role of heat treatment,2014 Journal of Luminescence 149, May 2014, Pages 138-143

2489. Chau, Y.-F. , Jheng, C.-Y. Buried E�ects of Surface Plasmon Reso-nance Modes for Periodic Metal-Dielectric Nanostructures Consis-ting of Coupled Spherical Metal Nanoparticles with Cylindrical PoreFilled with a Dielectric, Plasmonics 9, February 2014, Pages 1-9

2488. Wang, BY; Qu, SL Absorption spectra and near-electric �eld en-hancement e�ects of Au- and Ag-Fe3O4 dimers, APPLIED SURFACESCIENCE, 292 1002-1008; 10.1016/j.apsusc.2013.12.103 FEB 15 2014

2487. Katyal, J., Soni, R.K. Size- and shape-dependent plasmonic pro-perties of aluminum nanoparticles for nanosensing applications,Journal of Modern Optics 60 (20), 2013, 1717-1728

2486. Hu, Y. , Li, Z., Sun, Y. Enhanced photocatalysis by hybrid hierarchi-cal assembly of plasmonic nanocrystals with high surface areas,Catalysis Today 225, 2014, 177-184

2485. Chen, L.ab, Wei, H.b, Chen, K.-Q.a, Xu, H.-X., High-order plasmonresonances in an Ag/Al2O3 core/shell nanorice, Chinese PhysicsB, Volume 23, Issue 2, February 2014, Article number 027303

2484. Vadakkekara, R., Chakraborty, M. , Parikh, P.A. Synthesis, characte-rization, and application of monodisperse gelatin-stabilized silvernanospheres in reduction of aromatic nitro compounds, ColloidJournal Volume 76, Issue 1, January 2014, Pages 12-18

2483. Bansal, A; Sekhon, JS; Verma, SS Scattering E�ciency and LSPR Tu-nability of Bimetallic Ag, Au, and Cu Nanoparticles, PLASMONICS,9 (1):143-150; 10.1007/s11468-013-9607-x FEB 2014

2482. Battie, Y; Resano-Garcia, A; Chaoui, N; Zhang, Y; Naciri, AE Exten-ded Maxwell-Garnett-Mie formulation applied to size dispersion ofmetallic nanoparticles embedded in host liquid matrix, JOURNALOF CHEMICAL PHYSICS, 140 (4):10.1063/1.4862995 JAN 28 2014

2481. Sun, D. , Zhang, G. , Huang, J. , Wang, H. , Li, Q. Plant-mediatedfabrication and surface enhanced raman property of �ower-likeAu at Pd nanoparticles, Materials 7 (2), 2014, Pages 1360-1369

2480. Wang, T; Zhang, ZS; Liao, F; Cai, Q; Li, YQ; Lee, ST; Shao, MWThe E�ect of Dielectric Constants on Noble Metal/SemiconductorSERS Enhancement: FDTD Simulation and Experiment Valida-tion of Ag/Ge and Ag/Si Substrates, SCIENTIFIC REPORTS, 410.1038/srep04052 FEB 11 2014

2479. Nehm, F. , Schubert, S., M¸ller-Meskamp, L., Leo, K. Observation offeature ripening inversion e�ect at the percolation threshold forthe growth of thin silver �lms, Thin Solid Films 556, 2014, Pages381-384

2478. Lee, H., Kwak, J.-A., Jang, D.-J. Observation and characterization ofthe surface plasmon resonances of platinum nanoshells, Bulletinof the Korean Chemical Society 35, Issue 3, 2014, Pages 945-948

2477. Franckevicius, M., Gustainyte, A., Kondrotas, R., Juskenas, R., Mar-cos, M., Serrano, J.L., Vaisnoras, R., Gulbinas, V. PPI-SA and PAMAM-SA dendrimers assisted synthesis of silver nanoparticles: Structure,optical properties and stability, Journal of Nanoparticle Research16, Issue 4, April 2014

2476. Berginc, M; Krasovec, UO; Topic, M Solution Processed Silver Na-noparticles in Dye-Sensitized Solar Cells, JOURNAL OF NANOMA-TERIALS, 10.1155/2014/357979 2014

2475. Chen, H.-Y., Liu, K.-W., Jiang, M.-M., Zhang, Z.-Z., Xie, X.-H., Wang,D.-K., Liu, L., Li, B.-H., Zhao, D.-X., Shan, C.-X., Shen, D.-Z. Tunableenhancement of exciton emission from MgZnO by hybridized qua-drupole plasmons in Ag nanoparticle aggregation, Applied PhysicsLetters Volume 104, Issue 9, 2014, Article number 091119

2474. Battie, Y; Naciri, AE; Chamorro, W; Horwat, D Generalized E�ec-tive Medium Theory to Extract the Optical Properties of Two-Dimensional Nonspherical Metallic Nanoparticle Layers, JOURNALOF PHYSICAL CHEMISTRY C, 118 (9):4899-4905; 10.1021/jp4119343MAR 6 2014

2473. Mattox, TM; Bergerud, A; Agrawal, A; Milliron, DJ In�uence ofShape on the Surface Plasmon Resonance of Tungsten Bron-ze Nanocrystals, CHEMISTRY OF MATERIALS, 26 (5):1779-1784;10.1021/cm4030638 MAR 11 2014

2472. Vilchis-Nestor, A.-R., Trujillo-Reyes, J., ColIn-Molina, J.A., S·nchez-Mendieta, V., Avalos-Borja, M. Biogenic silver nanoparticles oncarbonaceous material from sewage sludge for degradation ofmethylene blue in aqueous solution, International Journal of En-vironmental Science and Technology 11, Issue 4, May 2014, Pages977-986

2471. Zhu, XM; Ma, X; Chang, HM; Tao, HZ; Zhao, XJ Morphology tuningof mono-disperse silver nanoparticles by reaction temperatureadjustment, JOURNAL OF WUHAN UNIVERSITY OF TECHNOLOGY-MATERIALS SCIENCE EDITION, 29 (1):40-43; 10.1007/s11595-014-0864-0 FEB 2014

2470. Stoenescu, S., Truong, V.-V., Packirisamy, M. Non-destructive quan-ti�cation of alignment of nanorods embedded in uniaxially stret-ched polymer �lms, Journal of Applied Physics, Volume 115, Issue11, 21 March 2014, Article number 114301

2469. Hu, C.-C., Yang, W., Tsai, Y.-T., Chau, Y.-F. Gap enhancement andtransmittance spectra of a periodic bowtie nanoantenna array bu-ried in a silica substrate, (2014) Optics Communications, 324 pp.227-233.

2468. Lee, S.H., Jamison, A.C., Ho�man, D.M., Jacobson, A.J., Lee, T.R. Pre-paration and characterization of polymeric thin �lms containinggold nanoshells via electrostatic layer-by-layer self-assembly,(2014) Thin Solid Films, 558 pp. 200-207.

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2466. Xuan, Y., Duan, H., Li, Q. Enhancement of solar energy absorptionusing a plasmonic nano�uid based on TiO2/Ag composite nano-particles, (2014) RSC Advances, 4 (31) pp. 16206-16213.

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2464. Pamies, R., Cifre, J.G.H., Espin, V.F., Collado-Gonzalez, M., Banos,F.G.D., De La Torre, J.G. Aggregation behaviour of gold nanopar-ticles in saline aqueous media, (2014) Journal of Nanoparticle Re-search, 16 (4), art. no. 2376

2463. Raza, S; Stenger, N; Kadkhodazadeh, S; Fischer, SV; Kostesha, N;Jauho, AP; Burrows, A; Wubs, M; Mortensen, NA Blueshi� of thesurface plasmon resonance in silver nanoparticles studied withEELS, NANOPHOTONICS, 2 (2):131-138; 10.1515/nanoph-2012-00322013

2462. Malmstrom, J., Travas-Sejdic, J. Block copolymers for protein or-dering, Journal of Applied Polymer ScienceVolume 131, Issue 14, 15July 2014, Article number 40360


2461. Lee, K., Hahn, R., Schmuki, P. Photocatalytic H2 production on self-decorated Au nanoparticles/TiO2 nanotubes under visible light,Electrochemistry Communications Volume 43, June 2014, Pages105-108

2460. Kargar, Z., Lary, Z.A., Anbaraki, A. Systematic calculation of nu-clear level density parameter, Iranian Journal of Physics ResearchVolume 13, Issue 3, 2014, Pages 289-295

2459. Bansal, A; Verma, SS Tailoring LSPR-Based Absorption and Scat-tering E�ciencies of Semiconductor-Coated Au nanoshells, PLAS-MONICS, 9 (2):335-341; 10.1007/s11468-013-9629-4 APR 2014

2458. Ji, A; Sharma, RP; Kumari, A; Pathak, NK Numerical Simulation ofSolar Cell Plasmonics for Small and Large Metal Nano ClustersUsing Discrete Dipole Approximation, PLASMONICS, 9 (2):291-297;10.1007/s11468-013-9622-y APR 2014

2457. Lazzari, R; Simonsen, I; Jupille, J Interfacial Susceptibilities in Na-noplasmonics via Inversion of Fresnel Coe�cients, PLASMONICS,9 (2):261-272; 10.1007/s11468-013-9619-6 APR 2014

2456. Stoenescu, S; Truong, VV; Packirisamy, M Dichroic Optical Proper-ties of Uniaxially Oriented Gold Nanorods in Polymer Films, PLAS-MONICS, 9 (2):299-307; 10.1007/s11468-013-9623-x APR 2014

2455. Sanz, J.M., Ortiz, D., Alcaraz de la Osa, R., Saiz, J.M., Gonzalez, F.,Brown, A.S., Losurdo, M., Everitt, H.O., Moreno, F. Metals for UVplasmonics, Optics InfoBase Conference Papers 2014, Workshopon Optical Plasmonic Materials, OPM 2014; Messe Berlin, Berlin;Germany; 18 March 2014 through 20 March 2014; Code 105022

2454. Goncalves, M.R. Plasmonic nanoparticles: Fabrication, simulationand experiments, Journal of Physics D: Applied Physics Volume47, Issue 21, 30 May 2014, Article number 213001

2453. Fardad, S., Salandrino, A., Heinrich, M., Zhang, P., Chen, Z., Chris-todoulides, D.N Plasmonic resonant solitons in metallic nanosus-pensions, Nano Letters Volume 14, Issue 5, 14 May 2014, Pages2498-2504

2452. Lounis, S.D., Runnerstrom, E.L., Llordes, A., Milliron, D.J. Defect che-mistry and Plasmon physics of colloidal metal oxide Nanocrystals,Journal of Physical Chemistry Letters Volume 5, Issue 9, 1 May2014, Pages 1564-1574

2451. Zhang, Q., Xiao, J.J. , Wang, S.L. Optical characteristics associatedwith magnetic resonance in toroidal metamaterials of verticallycoupled plasmonic nanodisks, Journal of the Optical Society ofAmerica B: Optical Physics Volume 31, Issue 5, 1 May 2014, Pages1103-1108

2450. Mattox, T.M., Bergerud, A., Agrawal, A., Milliron, D.J. In�uence ofshape on the surface plasmon resonance of tungsten bronze na-nocrystals, Chemistry of Materials Volume 26, Issue 5, 11 March2014, Pages 1779-1784

2449. Deng, Y., Shi, H., Ming, H., Liu, G., Xi, Z In�uence of the interactionbetween two Ag nanoparticles on optical properties of Ag/PGMEAnanocomposite materials, Journal of Modern Optics Volume 61,Issue 4, 23 February 2014, Pages 271-275

2448. Pathak, N.K. , Ji, A., Sharma, R.P. Tunable Properties of SurfacePlasmon Resonances: The In�uence of Core-Shell Thickness andDielectric Environment, Plasmonics Volume 9, Issue 3, June 2014,Pages 651-657

2447. Kumar, K.V.A., Sajna, M.S., Thomas, V., Joseph, C., Unnikrishnan,N.V. Plasmonic and Energy Studies of Ag Nanoparticles in Silica-Titania Hosts, Plasmonics Volume 9, Issue 3, June 2014, Pages 631-636

2446. Krishnan, A. , Das, S., Krishna, S.R., Khan, M.Z.A Multilayer na-noparticle arrays for broad spectrum absorption enhancement inthin �lm solar cells, Optics Express Volume 22, Issue SUPPL. 3,2014, Pages A800-A811

2445. Bansal, A. , Verma, S.S Simulated study of plasmonic coupling innoble bimetallic alloy nanosphere arrays, AIP Advances Volume4, Issue 5, May 2014, Article number 057104

2444. Horikoshi, S., Matsumoto, N, Omata, Y., Kato, T. Growth of Au na-noparticle �lms and the e�ect of nanoparticle shape on plasmonpeak wavelength, Journal of Applied Physics, Volume 115, Issue 19,21 May 2014, Article number 193506

2443. Feng, X. , Zhang, Y., Yan, Z., Ma, Y., Shen, Q., Liu, X., Fan, Q., Wang,L., Huang, W. Synthesis of polyaniline/Au composite nanotubesand their high performance in the detection of NADH, Journal ofSolid State Electrochemistry Volume 18, Issue 6, June 2014, Pages1717-1723

2442. Hsu, KC; Chen, DH Microwave-assisted green synthesis ofAg/reduced graphene oxide nanocomposite as a surface-enhanced Raman scattering substrate with high uniformity, NA-NOSCALE RESEARCH LETTERS, 9 10.1186/1556-276X-9-193 APR 282014

2441. Horikoshi, S, Matsumoto, N., Omata, Y., Kato, T. Growth of Aunanoparticle �lms and the e�ect of nanoparticle shape on plas-mon peak wavelength, Journal of Applied Physics 115 (19), 193506(2014)

2440. Pathak, N.K. , Ji, A., Sharma, R.P. Study of e�ciency enhancement inlayered geometry of excitonic-plasmonic solar cell, Applied Phy-sics A: Materials Science and Processing Volume 115, Issue 4, June2014, Pages 1445-1450

2439. Lama, P. , Suslov, A., Walser, A.D., Dorsinville, R. Plasmon assistedenhanced nonlinear refraction of monodispersed silver nanopar-ticles and their tunability, Optics Express 22, 41792, Pages 14014-14021, (2014)

2438. Panizon, E., Bochicchio, D., Rossi, G., Ferrando, R. Tuning the struc-ture of nanoparticles by small concentrations of impurities, Che-mistry of Materials 26, Issue 11, 10 June 2014, Pages 3354-3356

2437. Jain, P., Arun, P. Localized surface plasmon resonance in SnS:Agnano-composite �lms, Journal of Applied Physics 115, Issue 20, 28May 2014, Article number 204512

2436. Battie, Y., Resano-Garcia, A., Chaoui, N., Zhang, Y., En Naciri, A.Extended Maxwell-Garnett-Mie formulation applied to size disper-sion of metallic nanoparticles embedded in host liquid matrix,Journal of Chemical Physics 140, Issue 4, 2014, Article number044705

2435. Koleva, M.E. , Nedyalkov, N.N., Atanasov, P.A. E�ect of the plasmon-exciton coupling on the optical response of a ZnO/Ag/ZnO nano-composite, Journal of Physics: Conference Series Volume 514, Issue1, 2014, Article number 012031 18th International Summer Schoolon Vacuum, Electron and Ion Technologies, VEIT 2013; Sozopol;United Kingdom; 7 October 2013 through 11 October 2013; Code105664

2434. Terentyuk, G.S., Maksimova, I.L., Dikht, N.I., Terentyuk, A.G., Khleb-tsov, B.N., Khlebtsov, N.G., Tuchin, V.V. Cancer laser therapy usinggold nanoparticles, Lasers for Medical Applications: Diagnostics,Therapy and Surgery September 2013, Pages 659-703

2433. Badawy, S.M. Green synthesis and characterisations of antibacte-rial silver-polyvinyl alcohol nanocomposite �lms for wound dres-sing , Green Processing and Synthesis 3, Issue 3, 1 June 2014, Pages229-234

2432. Li, JB; Wu, WL; Han, C; Zhang, SJ; Zhou, HY; Guo, JW Aggrega-tion behavior of pH- and thermo-responsive block copolymer pro-tected gold nanoparticles, COLLOID AND POLYMER SCIENCE, 292(7):1657-1664; 10.1007/s00396-014-3225-9 JUL 2014

2431. Tian, XD; Zhou, YD; Thota, S; Zou, SL; Zhao, J Plasmonic Couplingin Single Silver Nanosphere Assemblies by Polarization-DependentDark-Field Scattering Spectroscopy, JOURNAL OF PHYSICAL CHE-MISTRY C, 118 (25):13801-13808; 10.1021/jp503505x JUN 26 2014


2430. Klimov, V; Guo, GY; Pikhota, M Plasmon Resonances in Metal Nano-particles with Sharp Edges and Vertices: A Material IndependentApproach, JOURNAL OF PHYSICAL CHEMISTRY C, 118 (24):13052-13058; 10.1021/jp412349f JUN 19 2014

2429. Meier, DC; Cavicchi, RE Forming spherical gold nanoparticles frompolymorphic nanoparticles using a single laser pulse, JOURNAL OFNANOPARTICLE RESEARCH, 16 (7):1-7; 10.1007/s11051-014-2460-9JUN 12 2014

2428. Lee, K ; Hahn, R ; Schmuki, P Photocatalytic H-2 production on self-decorated Au nanoparticles/TiO2 nanotubes under visible light,ELECTROCHEMISTRY COMMUNICATIONS 43 Pages: 105-108, DOI:10.1016/j.elecom.2014.04.002, JUN 2014

2427. Wang, Q., Cui, X., Guan, W., Zhang, L., Fan, X., Shi, Z., Zheng, W.Shape-dependent catalytic activity of oxygen reduction reaction(ORR) on silver nanodecahedra and nanocubes, Journal of PowerSources Volume 269, 10 December 2014, Pages 152-157

2426. Ishikawa, Y., Yao, H. Surface magnetoplasmons in silver nano-particles: Apparent magnetic-�eld enhancement manifested by si-multaneous deconvolution of UV-vis absorption and MCD spectra,Chemical Physics Letters Volume 609, 5 August 2014, Pages 93-97

2425. Wang, H. , Vial, A. Tunability of LSPR using gold nano-particlesembedded in a liquid crystal cell, Journal of Quantitative Spec-troscopy and Radiative Transfer Volume 146, October 2014, Pages492-498

2424. Daneshfar, N Temperature dependence of the optical characteris-tics and surface plasmon resonance of core-shell nanoparticles,PHYSICS OF PLASMAS, 21 (6):10.1063/1.4880595 JUN 2014

2423. Shiohara, A., Langer, J., Polavarapu, L., Liz-Marzan, L.M. Solutionprocessed polydimethylsiloxane/gold nanostar �exible substratesfor plasmonic sensing, Nanoscale, Volume 6, Issue 16, 21 August2014, Pages 9817-9823

2422. Ajith, R., Mathew, V., Arun, P. Surface plasmon resonance of dumb-bell nanostructure, Physica Scripta Volume 89, Issue 8, 1 August2014, Article number 085501

2421. Singh, A., Chernenko, T., Amiji, M. Theranostic applications of plas-monic nanosystems, ACS Symposium Series Volume 1113, 26 No-vember 2012, Pages 383-413

2420. Wang, Q., Cui, X., Guan, W., Zhang, L., Fan, X., Shi, Z., Zheng, W.Shape-dependent catalytic activity of oxygen reduction reaction(ORR) on silver nanodecahedra and nanocubes, Journal of PowerSources Volume 269, 10 December 2014, Pages 152-157

2419. Antropova, T., Girsova, M., An�mova, I., Drozdova, I., Polyakova,I., Vedishcheva, N. Structure and spectral properties of the photo-chromic quartz-like glasses activated by silver halides, Journal ofNon-Crystalline Solids, Volume 401, 1 October 2014, Pages 139-141

2418. Yuan, P., Ma, R., Guan, Z., Gao, N., Xu, Q.-H. Tuning two-photon pho-toluminescence of gold nanoparticle aggregates with DNA and itsapplication as turn-on photoluminescence probe for DNA sequen-ce detection, ACS Applied Materials and Interfaces Volume 6, Issue15, 13 August 2014, Pages 13149-13156

2417. Navas, M.P. , Soni, R.K. Laser generated Ag and Ag-Au compositenanoparticles for refractive index sensor, Applied Physics A: Mate-rials Science and Processing Volume 116, Issue 3, September 2014,Pages 879-886

2416. Chander, N., Khan, A.F., Thouti, E., Sardana, S.K., Chandrasekhar,P.S., Dutta, V., Komarala, V.K. Size and concentration e�ects of goldnanoparticles on optical and electrical properties of plasmonic dyesensitized solar cells, Solar Energy Volume 109, November 2014,Pages 11-23

2415. Du, J., Zhu, B., Peng, X., Chen, X Optical reading of contaminantsin aqueous media based on gold nanoparticles, Small Volume 10,Issue 17, 10 September 2014, Pages 3461-3479

2414. de Leon, YP; Pichardo-Molina, JL; Ochoa, NA Growth Kineticsof Concave Nanocubes Studied by Optical Coherence Tomo-graphy, PLASMONICS, 9 (4):907-915; 10.1007/s11468-014-9696-1AUG 2014

2413. Soomro, R.A., Nafady, A., Sirajuddin, Memon, N., Sherazi, T.H., Kal-war, N.H. L-cysteine protected copper nanoparticles as colorime-tric sensor for mercuric ions, Talanta Volume 130, 1 December2014, Pages 415-422

2412. Lee, Y., Abasaki, M., Portela, A., Delaunay, J.-J. E�ective light con-centration in gold short nanosphere chain on platinum mirror forsurface-enhanced Raman scattering, Applied Physics Letters Volu-me 105, Issue 12, 22 September 2014, Article number 121114

2411. Bisio, F; Zaccaria, RP; Moroni, R; Maidecchi, G; Alabastri, A; Gonella,G; Giglia, A; Andol�, L; Nannarone, S; Mattera, L; Canepa, M Pus-hing the High-Energy Limit of Plasmonics, ACS NANO, 8 (9):9239-9247; 10.1021/nn503035b SEP 2014

2410. Deschaume, O; De Roo, B; Van Bael, MJ; Locquet, JP; Van Hae-sendonck, C; Bartic, C Synthesis and Properties of Gold Nano-particle Arrays Self-Organized on Surface-Deposited LysozymeAmyloid Sca�olds, CHEMISTRY OF MATERIALS, 26 (18):5383-5393;10.1021/cm502652t SEP 23 2014

2409. Hsu, KC; Chen, DH Green synthesis and synergistic catalytic ef-fect ofAg/reduced graphene oxide nanocomposite, NANOSCALERESEARCH LETTERS 9, Article Number: 484, DOI: 10.1186/1556-276X-9-484 Published: SEP 11 2014

2408. Lee, D., Jang, D.-J. Charge-carrier relaxation dynamics of poly(3-hexylthiophene)-coated gold hybrid nanoparticles, Polymer, Volu-me 55, Issue 21, 9 October 2014, Pages 5469-5476

2407. Lee, H., Kwak, J.-A., Jang, D.-J. Laser-induced fabrication of hollowplatinum nanospheres for enhanced catalytic performances, Jour-nal of Physical Chemistry C Volume 118, Issue 39, 2 October 2014,Pages 22792-22798

2406. Ghanaatshoar, M., Moradi, M., Tohidi, P. Surface plasmon re-sonance enhancement of the magneto-optical Kerr e�ect inCu/Co/Ag/SnO2 structure, EPJ Applied Physics Volume 68, Issue1, 1 October 2014, Article number 10402

2405. Amendola, V., Meneghetti, M., Stener, M., Guo, Y., Chen, S., Cres-po, P., Garcıa, M.A., Hernando, A., Pengo, P., Pasquato, L. Physico-Chemical Characteristics of Gold Nanoparticles, ComprehensiveAnalytical Chemistry Volume 66, 2014, Pages 81-12

2404. Adhyaksa, GWP; Baek, SW; Lee, GI; Lee, DK; Lee, JY; Kang, JKCoupled Near- and Far-Field Scattering in Silver Nanoparticles forHigh-E�ciency, Stable, and Thin Plasmonic Dye-Sensitized SolarCells, CHEMSUSCHEM, 7 (9):2461-2468; 10.1002/cssc.201402146SEP 2014

2403. Huang, F; Zhou, JC; Xu, J; Wang, YS Reversible self-assembly ofMxS (M = Cu, Ag) nanocrystals through ligand exchange, CRYS-TENGCOMM, 16 (40):9478-9481; 10.1039/c4ce00646a 2014

2402. Deng, W; Goldys, EM Chemical sensing with nanoparticles asoptical reporters: from noble metal nanoparticles to quantumdots and upconverting nanoparticles, ANALYST, 139 (21):5321-5334;10.1039/c4an01272k 2014

2401. Zhang, P; Li, SB; Liu, CH; Wei, XB; Wu, ZM; Jiang, YD; Chen, ZNear-infrared optical absorption enhanced in black silicon via Agnanoparticle-induced localized surface plasmon, NANOSCALE RE-SEARCH LETTERS, 9 10.1186/1556-276X-9-519 SEP 22 2014

2400. Grigorchuk, N.I. Sensitivity of surface plasmon resonances in sp-heroidal metal nanoparticles, European Physical Journal B Volume87, Issue 10, 1 October 2014, Article number b140571


2399. Zhu, SM; Fan, CZ; Wang, JQ; He, JN; Liang, EJ Surface-enhancedRaman scattering of 4-mercaptobenzoic acid and hemoglobin ad-sorbed on self-assembled Ag monolayer �lms with di�erent sha-pes, APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING, 117(3):1075-1083; 10.1007/s00339-014-8548-3 NOV 2014

2398. Alsawa�a, M; Wahbeh, M; Truong, VV E�ect of symmetry brea-king and substrate on the optical properties of silver sphere-likenanoparticles in di�erent surrounding media, Proceedings of SPIE- The International Society for Optical Engineering 9288, 92881A,2014, 9288 10.1117/12.2086149 2014

2397. Berco, D; Hu, CK A Spherical Harmonic Transform Spectral Analy-sis of a Localized Surface Plasmon on a Gold Nano Shell,JOURNAL OF COMPUTATIONAL CHEMISTRY, 35 (30):2225-2230;10.1002/jcc.23741 NOV 15 2014

2396. Li, W.-Y., Chen, F.-Y E�ects of shape and dopant on structural, op-tical absorption, Raman, and vibrational properties of silver andcopper quantum clusters: A density functional theory study, Chine-se Physics B Volume 23, Issue 11, 1 November 2014, Article number117103

2395. Huang, F., Zhou, J., Xu, J., Wang, Y Reversible self-assembly of MxS(M = Cu, Ag) nanocrystals through ligand exchange, CrystEng-Comm Volume 16, Issue 40, 28 October 2014, Pages 9478-9481

2394. Jung, H., Koo, B., Kim, J.-Y., Kim, T., Son, H.J., Kim, B., Kim, J.Y., Lee,D.-K., Kim, H., Cho, J., Ko, M.J. Enhanced photovoltaic propertiesand long-term stability in plasmonic dye-sensitized solar cells vianoncorrosive redox mediator, ACS Applied Materials and Interfa-ces, Volume 6, Issue 21, 12 November 2014, Pages 19191-19200

2393. Giannini, R., Hafner, C., Lo�er, J.F. Axis-selective excitation of goldnanoparticle resonances, Journal of the Optical Society of AmericaB: Optical Physics, Volume 31, Issue 11, 1 November 2014, Pages2621-2627

2392. Xiao, G., Man, S., Shi, W., Feng, J. Surface plasmon resonance andsurface-enhanced Raman scattering activity of SiO2-Au core-capnanostructure arrays, Applied Physics A: Materials Science andProcessing Volume 117, Issue 4, 18 November 2014, Pages 1907-1914

2391. Wan, M.L. , Sun, X.J., Song, Y.L., Li, Y., Zhou, F.Q. Plasmonic analo-gue of electromagnetically induced transparency in a T-shapedmetallic nanohole array and its sensing performance, ModernPhysics Letters B Volume 28, Issue 29, 20 November 2014, Articlenumber 1450231

2390. Bansal, A. , Verma, S.S. Optical response of noble metal alloynanostructures, Physics Letters, Section A: General, Atomic andSolid State Physics Volume 379, Issue 3, 23 January 2015, Pages163-169

2389. Tsuboi, A., Nakamura, K., Kobayashi, N. Multicolor electrochro-mism showing three primary color states (cyan-magenta-yellow)based on size- and shape-controlled silver nanoparticles, Che-mistry of Materials Volume 26, Issue 22, 25 November 2014, Pages6477-6485

2388. Liow, C., Meng, F., Chen, X., Li, S. Dependence of plasmonic proper-ties on electron densities for various coupled Au nanostructures,Journal of Physical Chemistry C Volume 118, Issue 47, 26 November2014, Pages 27531-27538

2387. Bottomley, A., Ianoul, A. Re�ection and absorption spectra of silvernanocubes on a dielectric substrate: Anisotropy, angle, and polari-zation dependencies, Journal of Physical Chemistry C Volume 118,Issue 47, 26 November 2014, Pages 27509-27515

2386. Furtado, LAD; Gomez-Malagon, LA Simulation of the Linear andNonlinear Optical Properties of Colloids Containing Metallic Core-Dielectric Shell Nanoellipsoids, PLASMONICS, 9 (6):1377-1389;10.1007/s11468-014-9753-9 DEC 2014

2385. Li, CH; Jamison, AC; Rittikulsittichai, S; Lee, TC; Lee, TR In SituGrowth of Hollow Gold-Silver Nanoshells within Porous Silica Of-fers Tunable Plasmonic Extinctions and Enhanced Colloidal Stabi-lity, ACS APPLIED MATERIALS & INTERFACES, 6 (22):19943-19950;10.1021/am505424w NOV 26 2014

2384. Schlesinger, M., Giese, M., Blusch, L.K., Hamad, W.Y., Maclachlan,M.J. Chiral nematic cellulose-gold nanoparticle composites frommesoporous photonic cellulose, Chemical Communications Volume51, Issue 3, 11 January 2015, Pages 530-533

2383. Xia, Z., Song, T. , Sun, J., Lee, S.-T., Sun, B. Plasmonic enhancementin hybrid organic/Si heterojunction solar cells enabled by embed-ded gold nanoparticles, Applied Physics Letters Volume 105, Issue24, 15 December 2014, Article number 241110

2382. Tyshetskiy, Y. Vladimirov, S.V., Kompaneets, R. A new type of surfa-ce waves in a fully degenerate quantum plasma, Physics of Plas-mas Volume 21, Issue 12, 1 December 2014, Article number 122114

2381. Dubrovin, V.D., Ignatiev, A.I., Nevedomskii, V.M., Nikonorov, N.V., Si-dorov, A.I., Tsekhomskii, V.A. The in�uence of synthesis conditionsand ultraviolet irradiation on the morphology and concentration ofsilver nanocrystals in photothermo-refractive glasses, Glass Tech-nology: European Journal of Glass Science and Technology Part AVolume 55, Issue 6, 1 December 2014, Pages 191-195

2380. Barcaro, G., Sementa, L., Fortunelli, A., Stener, M. Optical proper-ties of Pt and Ag-Pt nanoclusters from TDDFT calculations: Plas-mon suppression by pt poisoning, Journal of Physical Chemistry CVolume 118, Issue 48, 4 December 2014, Pages 28101-28108

2379. Yoo, S., Kim, J. E�ect of the additional anode layers on the ab-sorption enhancement characteristic of plasmonic organic solarcells, Japanese Journal of Applied Physics Volume 53, Issue 12, 1December 2014, Article number 122302

2378. Wu, J; Li, W; Hajisalem, G; Lukach, A; Kumacheva, E; Hof, F; Gor-don, R Trace cancer biomarker quanti�cation using polystyrene-functionalized gold nanorods, BIOMEDICAL OPTICS EXPRESS, 5(12):4101-4107; 10.1364/BOE.5.004101 DEC 1 2014

2377. Claro, F; Fuchs, R; Robles, P; Rojas, R The e�ect of dissipationon the torque and force experienced by nanoparticles in anAC �eld, INTERNATIONAL JOURNAL OF MODERN PHYSICS B, 29(1):10.1142/S0217979214502403 JAN 10 2015

2376. Ji, A. , Sharma, R.P., Kumari, A., Pathak, N.K. Numerical simulationof solar cell plasmonics for small and large metal nano clustersusing discrete dipole approximation, Plasmonics Volume 9, Issue2, 1 January 2014, Pages 291-297

2375. Stoenescu, S., Truong, V.-V., Packirisamy, M. Dichroic optical pro-perties of uniaxially oriented gold nanorods in polymer �lms, Plas-monics Volume 9, Issue 2, 1 January 2014, Pages 299-307

2374. In, S., Mason, D.R., Lee, H., Jung, M., Lee, C., Park, N. Enhanced lighttrapping and power conversion e�ciency in ultrathin plasmonicorganic solar cells: A coupled optical-electrical multiphysics studyon the e�ect of nanoparticle geometry, ACS Photonics Volume 2,Issue 1, 21 January 2015, Pages 78-85

2373. Liu, DL; Li, CC; Zhou, F; Zhang, T; Zhang, HH; Li, XY; Duan, GT;Cai, WP; Li, Y Rapid Synthesis of Monodisperse Au Nanosphe-res through a Laser Irradiation-Induced Shape Conversion, Self-Assembly and Their Electromagnetic Coupling SERS Enhancement,SCIENTIFIC REPORTS, 5 10.1038/srep07686 JAN 8 2015

2372. Macias-Montero, M., Pelaez, R.J., Rico, V.J., Saghi, Z., Midgley, P.,Afonso, C.N., Gonzalez-Elipe, A.R., Borras, A. Laser treatment ofAg at ZnO nanorods as long-life-span SERS surfaces, ACS AppliedMaterials and Interfaces Volume 7, Issue 4, 4 February 2015, Pages2331-2339

2371. Deng, Y., Ming, H., Liu, G., Shi, H. Size dependence of simulatedoptical properties for Cu nanocubes, European Physical Journal DVolume 69, Issue 2, February 2015, Article number 37


2370. Ben Aissa, M.A., Tremblay, B., Andrieux-Ledier, A., (...), Raoua�, N.,Courty, A. Copper nanoparticles of well-controlled size and shape:A new advance in synthesis and self-organization, 2015 Nanoscale7 (7), pp. 3189-3195

2369. Hyun, J.Y., Yun, C., Kim, K.H., Kim, W.H., Jeon, S.-W., Im, W.B., Kim,J.P. Control of the plasmon resonance from poly-dispersed silvernanoparticles, Japanese Journal of Applied Physics Volume 54, Is-sue 2, 1 February 2015, Article number 02BD02

2368. Zhao, C., Zhu, Y., Su, Y., (...), Xiang, R., Tang, Z. Tailoring plasmonresonances in aluminium nanoparticle arrays fabricated usinganodic aluminium oxide, 2015 Advanced Optical Materials 3 (2),pp. 248-256

2367. Fernandez, R., Gutierrez, J., Eceiza, A., Tercjak, A. Hybrid materialsbased on azopolymer and sol-gel synthesized silver-containing ti-tanium oxide nanoparticles with photoinduced birefringence, 2015Source of the DocumentRSC Advances 5 (20), pp. 15740-15748

2366. Can-Uc, B., Rangel-Rojo, R., Marquez, H., Rodriguez-Fernandez, L.,Oliver, A. Nanoparticle containing channel waveguides producedby a multi-energy masked ion-implantation process, 2015 OpticsExpress 23 (3), pp. 3176-3185

2365. Rosenkrantz, E., Arnon, S. Local surface plasmon tuning for opticaldevices, 2015 IEEE Photonics Technology Letters 27 (6), 7012098,pp. 669-672

2364. Barabadi, H., Honary, S., Ebrahimi, P., (...), Alizadeh, A., Naghibi, F.Microbial mediated preparation, characterization and optimizationof gold nanoparticles, 2014 Brazilian Journal of Microbiology 45(4), pp. 1493-1501

2363. Gao, F., Yang, Y., Wang, T. Preparation of porous TiO2/Ag heteros-tructure �lms with enhanced photocatalytic activity, 2015 ChemicalEngineering Journal 270, pp. 418-427

2362. Bisio, F., Gonella, G., Maidecchi, G., (...), Giglia, A., Canepa, M.Broadband plasmonic response of self-organized aluminium na-nowire arrays, 2015 Journal of Physics D: Applied Physics 48 (18),184003

2361. Nidya, M., Umadevi, M., Sankar, P., Philip, R., Rajkumar, B.J.M. L-Phenylalanine functionalized silver nanoparticles: Photocatalyticand nonlinear optical applications, 2015 Optical Materials 42, pp.152-159

2360. Ong, H.R., Khan, M.M.R., Ramli, R., (...), Xi, S., Yunus, R.M. Facilesynthesis of copper nanoparticles in glycerol at room temperature:Formation mechanism, 2015 RSC Advances 5 (31), pp. 24544-24549

2359. Kuppusamy, P., Ichwan, S.J.A., Parine, N.R., (...), Maniam, G.P., Go-vindan, N. Intracellular biosynthesis of Au and Ag nanoparticlesusing ethanolic extract of Brassica oleracea L. and studies on theirphysicochemical and biological properties, 2015 Journal of Envi-ronmental Sciences (China) 29, pp. 151-157

2358. Chinh, V.D., Trung, N.Q. Synthesis and optical properties of co-lloidal Au-Ag alloy nanoparticles, 2015 International Journal ofNanotechnology 12 (5-7), pp. 515-524

2357. Cuevas, R., Duran, N., Diez, M.C., Tortella, G.R., Rubilar, O. Extrace-llular biosynthesis of copper and copper oxide nanoparticles byStereum hirsutum, a native white-rot fungus from chilean forests,2015 Journal of Nanomaterials 2015, 789089

2356. Bouhadoun, S., Guillard, C., Dapozze, F., F; Singh, S; Amans, D,Boucle, J., Herlin-Boime, N. One step synthesis of N-doped andAu-loaded TiO2 nanoparticles by laser pyrolysis: Application inphotocatalysis, 2015 Applied Catalysis B: Environmental 174-175,pp. 367-375

2355. Franco, D.F., SantAna, A.C., De Oliveira, L.F.C., Silva, M.A.P. TheSb2O3 redox route to obtain copper nanoparticles in glasses withplasmonic properties, 2015 Journal of Materials Chemistry C 3 (15),pp. 3803-3808

2354. Resano-Garcia, A., Battie, Y., En Naciri, A., Akil, S., Chaoui, N. Expe-rimental and theoretical determination of the plasmonic respon-ses and shape distribution of colloidal metallic nanoparticles, 2015Journal of Chemical Physics 142 (13), 134108

2353. Cardoso-Avila, P.E., Pichardo-Molina, J.L., Krishna, C.M., Castro-Beltran, R. Photochemical transformation of silver nanoparticlesby combining blue and green irradiation, 2015 Journal of Nano-particle Research 17 (3)

2352. Kuisma, M., Sakko, A., Rossi, T.P., Larsen, AH; Enkovaara, J, Leh-tovaara, L., Rantala, T.T. Localized surface plasmon resonancein silver nanoparticles: Atomistic �rst-principles time-dependentdensity-functional theory calculations, 2015 Physical Review B -Condensed Matter and Materials Physics 91 (11), 115431

2351. Gupta, R.K., Dubey, M., Li, P.Z., Xu, Q., Pandey, D.S. Size-controlledsynthesis of Ag nanoparticles functionalized by heteroleptic dipy-rrinato complexes having meso- pyridyl substituents and their ca-talytic applications, 2015 Inorganic Chemistry 54 (6), pp. 2500-2511

2350. Zhou, N., Lopez-Puente, V., Wang, Q., (...), Pastoriza-Santos, I.,Xu, Q.-H. Plasmon-enhanced light harvesting: Applications in en-hanced photocatalysis, photodynamic therapy and photovoltaics,2015 RSC Advances 5 (37), pp. 29076-29097

2349. Lee, D., Yoon, S. Gold nanocube-nanosphere dimers: Preparation,plasmon coupling, and surface-enhanced raman scattering, 2015Journal of Physical Chemistry C 119 (14), pp. 7873-7882

2348. Wan, M., Yuan, S., Dai, K., Song, Y., Zhou, F. Electromagneticallyinduced transparency in a planar complementary metamaterialand its sensing performance, 2015 Optik 126 (5), pp. 541-544

2347. Sun, Y., Jiang, L., Zhong, L., Jiang, Y., Chen, X. Towards active plas-monic response devices, 2015 Nano Research 8 (2), pp. 406-417

2346. Nedyalkov, N., Nikov, R., Koleva, M., (...), Delaporte, P., Grojo, D.Nanoparticle-decorated ceramic as substrate in surface enhancedRaman spectroscopy, 2015 Applied Surface Science 336, pp. 16-20

2345. Borges, J., Kubart, T., Kumar, S., (...), Cavaleiro, A., Vaz, F. Micros-tructural evolution of Au/TiO2 nanocomposite �lms: The in�uenceof Au concentration and thermal annealing, 2015 Thin Solid Films580, pp. 77-88

2344. Giannini, R., Hafner, C.V., Lo�er, J.F. Scaling behavior of individualnanoparticle plasmon resonances, 2015 Journal of Physical Che-mistry C 119 (11), pp. 6138-6147

2343. Manai, L., Rezgui, B.D., Bou, A., (...), Palais, O., Bessais, B. Enhan-ced light trapping using plasmonic nanoparticles, 2015 Journal ofPhysics: Conference Series 596 (1), 012002

2342. De Sio, L., Placido, T., Comparelli, R., (...), Tabiryan, N., Bunning,T.J. Next-generation thermo-plasmonic technologies and plasmo-nic nanoparticles in optoelectronics, 2015 Progress in QuantumElectronics 41, pp. 23-70

2341. Liu, M., Xue, X., Ghosh, C., (...), Swihart, M.T., Prasad, P.N. Room-temperature synthesis of covellite nanoplatelets with broadly tu-nable localized surface plasmon resonance, 2015 Chemistry ofMaterials 27 (7), pp. 2584-2590

2340. Soomro, RA; Nafady, A; Sirajuddin; Sherazi, STH; Kalwar, NH; Shah,MR; Hallam, KR Catalytic Reductive Degradation of Methyl OrangeUsing Air Resilient Copper Nanostructures, JOURNAL OF NANOMA-TERIALS, 10.1155/2015/136164 2015

2339. Monti, A; Alu, A; Toscano, A; Bilotti, F Optical invisibility throughmetasurfaces made of plasmonic nanoparticles, JOURNAL OF AP-PLIED PHYSICS, 117 (12):10.1063/1.4916257 MAR 28 2015

2338. Bothra, S., Kumar, R., Pati, R.K., (...), Choi, H.-J., Sahoo, S.K. Virginsilver nanoparticles as colorimetric nanoprobe for simultaneousdetection of iodide and bromide ion in aqueous medium, 2015Spectrochimica Acta - Part A: Molecular and Biomolecular Spec-troscopy Volume 149, 5 October 2015, Pages 122-126


2337. Emam, A.N., Mohamed, M.B., Girgis, E., Rao, K.V. Hybrid magnetic-plasmonic nanocomposite: Embedding cobalt clusters in gold na-norods, 2015 RSC Advances 5 (44), pp. 34696-34703

2336. Hung, W.H., Lai, S.N., Lo, A.Y. Synthesis of strong light scattering ab-sorber of TiO2-CMK-3/Ag for photocatalytic water splitting undervisible light irradiation, 2015 ACS Applied Materials and Interfaces7 (16), pp. 8412-8418

2335. Zopes, D., Hegemann, C., Schlafer, J., Tyrra, W., Mathur, S. Single-source precursors for alloyed gold-silver nanocrystals - A mole-cular metallurgy approach 2015 Inorganic Chemistry 54 (8), pp.3781-3787

2334. Soomro, R.A., Nafady, A., Sirajuddin, (...), Shah, M.R., Hallam, K.R.Catalytic reductive degradation of methyl orange using air resi-lient copper nanostructures, 2015 Journal of Nanomaterials 2015,136164

2333. Chahal, R.P., Mahendia, S., Tomar, A.K., Kumar, S. UV irradiatedPVA-Ag nanocomposites for optical applications, 2015 Applied Sur-face Science 343, pp. 160-165

2332. Claro, F., Fuchs, R., Robles, P., Rojas, R. The e�ect of dissipation onthe torque and force experienced by nanoparticles in an AC �eld,2015 International Journal of Modern Physics B 29 (1), 1450240

2331. Navas, MP; Soni, RK Laser-Generated Bimetallic Ag-Au and Ag-CuCore-Shell Nanoparticles for Refractive Index Sensing, PLASMO-NICS, 10 (3):681-690; 10.1007/s11468-014-9854-5 JUN 2015

2330. Zhu, Y., Yang, S., Cai, J., Meng, M., Li, X. A facile synthesis ofAgxAu1-x/TiO2 photocatalysts with tunable surface plasmon reso-nance (SPR) frequency used for RhB photodegradation, 2015 Ma-terials Letters 154, pp. 163-166

2329. Kumar, B., Kaur, G., Rai, S.B. Study of laser ablated copper nano-particles in di�erent liquids and their e�ect on optical propertiesof Tb3+ in PVA, 2015 Indian Journal of Physics 89 (6), pp. 629-634

2328. Amendola, V., Saija, R., Marago, O.M., Iati, M.A. Superior plasmonabsorption in iron-doped gold nanoparticles, 2015 Nanoscale 7(19), pp. 8782-8792

2327. Zhou, N., Ye, C., Polavarapu, L., Xu, Q.-H. Controlled preparation ofAu/Ag/SnO2 core-shell nanoparticles using a photochemical met-hod and applications in LSPR based sensing, 2015 Nanoscale 7(19), pp. 9025-9032

2326. Desai, D., Datta, M. Green synthesis of silver antimicrobials forits potential application in control of nosocomial infections, 2015Asian Journal of Pharmaceutical and Clinical Research 8 (3), pp.219-223

2325. Al-Azawi, MA; Bidin, N; Abdullah, M; Ali, AK; Hassoon, KI; Khal-doon, NA; Al-Asedy, HJ Surface plasmon resonance e�ects of goldcolloids on optical properties of N719 dye in ethanol, JOURNAL OFOPTOELECTRONICS AND ADVANCED MATERIALS, 17 (3-4):264-269;MAR-APR 2015

2324. Verma, S., Rao, B.T., Bhartiya, S., Sathe, V., Kukreja, L.M. Growthtemperature dependent surface plasmon resonances of denselypacked gold nanoparticles’�lms and their role in surface enhancedRaman scattering of Rhodamine6G, 2015 Applied Surface Science346, pp. 379-387

2323. Lin, GJ; Zhang, Q; Lin, XY; Zhao, DF; Jia, R; Gao, NK; Zuo, ZY; Xu,XG; Liu, D Enhanced photoluminescence of gallium phosphide bysurface plasmon resonances of metallic nanoparticles, RSC AD-VANCES, 5 (60):48275-48280; 10.1039/c5ra07368e 2015

2322. Zhang, F., Zhu, J., Li, J.-J., Zhao, J.-W. A promising direct visualiza-tion of an Au at Ag nanorod-based colorimetric sensor for tracedetection of alpha-fetoprotein, (2015) Journal of Materials Che-mistry C, 3 (23), pp. 6035-6045.

2321. Alcaraz De La Osa, R., Sanz, J.M., Barreda, A.I., Saiz, J.M., Gonzalez,F., Everitt, H.O., Moreno, F. Rhodium Tripod Stars for UV Plasmonics,(2015) Journal of Physical Chemistry C, 119 (22), pp. 12572-12580.

2320. Napoles-Duarte, J.M., Chavez-Rojo, M.A., Fuentes-Montero, M.E.,Rodriguez-Valdez, L.M., Garcia-Llamas, R., Gaspar-Armenta, J.A.Surface plasmon resonances in Drude metal cylinders: Radius de-pendence and quality factor, (2015) Journal of Optics (United King-dom), 17 (6), art. no. 065003.

2319. Cuenya, BR; Behafarid, F Nanocatalysis: size- and shape-dependent chemisorption and catalytic reactivity, SURFACE SCIEN-CE REPORTS, 70 (2):135-187; 10.1016/j.surfrep.2015.01.001 JUN 2015

2318. Nair, G; Singh, HJ; Ghosh, A Tuning the chiro-plasmonic respon-se using high refractive index-dielectric templates, JOURNAL OFMATERIALS CHEMISTRY C, 3 (26):6831-6835; 10.1039/c5tc00922g2015

2317. Hou, H; Chen, LM; He, HL; Chen, LZ; Zhao, ZL; Jin, YD Fine-tuningthe LSPR response of gold nanorod-polyaniline core-shell nano-particles with high photothermal e�ciency for cancer cell abla-tion, JOURNAL OF MATERIALS CHEMISTRY B, 3 (26):5189-5196;10.1039/c5tb00556f 2015

2316. Ji, A; Sharma, R; Pathak, H; Pathak, NK; Sharma, RP Numericalsimulation of plasmonic light trapping in thin-�lm Si solar cells:surface coverage e�ect, JOURNAL OF PHYSICS D-APPLIED PHYSICS,48 (27):10.1088/0022-3727/48/27/275101 JUL 15 2015

2315. Li, JF; Tian, ZQ Shell-Isolated Nanoparticle-Enhanced Raman Spec-troscopy (SHINERS), Li, Jian-Feng; Tian, Zhong-Qun, Edited by:Ozaki Y; Kneipp K; Aroca R, FRONTIERS OF SURFACE-ENHANCEDRAMAN SCATTERING: SINGLE NANOPARTICLES AND SINGLE CELLS,163-192; 2014

2314. Gergely-Fulop, E; Nagy, N; Deak, A Langmuir-Blodgett Filmsof Gold Nanorods with Di�erent Silica Shell Thicknesses, PE-RIODICA POLYTECHNICA-CHEMICAL ENGINEERING, 59 (2):104-110;10.3311/PPch.7596 2015

2313. Tsai, MS; Liu, TK; Tsen, CY; Ting, CC Polarization sensitivity of lightdi�raction for periodic array of anisotropic gold nanoparticles, AP-PLIED PHYSICS LETTERS, 106 (24):10.1063/1.4922808 JUN 15 2015

2312. Sardana, SK; Chava, VSN; Komarala, VK Morphology and opti-cal properties of sputter deposited silver nanoparticles on plain,textured and antire�ection layer coated textured silicon, APPLIEDSURFACE SCIENCE, 347 651-656; 10.1016/j.apsusc.2015.04.145 AUG30 2015

2311. Erola, M.O.A., Philip, A., Ahmed, T., Suvanto, S., Pakkanen, T.T. Fa-brication of AU- and Ag-SiO2 inverse opals having both localizedsurface plasmon resonance and Bragg di�raction, 2015 Journal ofSolid State Chemistry 230, 18964, pp. 209-217

2310. Streltsov, D.R., Mailyan, K.A., Gusev, A.V., (...), Chvalun, S.N., Iva-nov, D.A. Structure and optical properties of thin poly(p-xylylene)- Silver nanocomposite �lms prepared by low-temperature vapordeposition polymerization, 2015 Polymer (United Kingdom) 71, pp.60-69

2309. Monti, A., Alu, A., Toscano, A., Bilotti, F. Optical invisibility throughmetasurfaces made of plasmonic nanoparticles, 2015 Journal ofApplied Physics 117 (12), 123103

2308. Diaz-Egea, C., Abargues, R., Martinez-Pastor, J.P., (...), van Aken,P.A., Molina, S.I. High spatial resolution mapping of individualand collective localized surface plasmon resonance modes of sil-ver nanoparticle aggregates: correlation to optical measurements,2015 Nanoscale Research Letters 10 (1), 310

2307. Goldmann, C., Lazzari, R., Paquez, X., (...), Chaneac, C., Portehault,D. Charge Transfer at Hybrid Interfaces: Plasmonics of AromaticThiol-Capped Gold Nanoparticles, 2015 ACS Nano 9 (7), pp. 7572-7582


2306. Lacerda, A.M., Larrosa, I., Dunn, S. Plasmon enhanced visible lightphotocatalysis for TiO2 supported Pd nanoparticles, 2015 Sourceof the Nanoscale 7 (29), pp. 12331-12335

2305. Giangregorio, MM; Jiao, W; Bianco, GV; Capezzuto, P; Brown, AS;Bruno, G; Losurdo, M Insights into the e�ects of metal nanos-tructuring and oxidation on the work function and charge trans-fer of metal/graphene hybrids, NANOSCALE, 7 (30):12868-12877;10.1039/c5nr02610e 2015

2304. Lee, MS; Kim, NW; Lee, JE; Lim, DW; Suh, W; Kim, HT; Park, JW;Jeong, JH Micelle-templated dendritic gold nanoparticles for en-hanced cellular delivery of siRNA, MACROMOLECULAR RESEARCH,23 (7):670-677; 10.1007/s13233-015-3091-4 JUL 2015

2303. Yu, BX; Woo, J; Kong, M; O’Carroll, DM Mode-speci�c studyof nanoparticle-mediated optical interactions in an absor-ber/metal thin �lm system, NANOSCALE, 7 (31):13196-13206;10.1039/c5nr02217g 2015

2302. Cesca, T; Michieli, N; Kalinic, B; Sanchez-Espinoza, A; Rattin, M;Russo, V; Mattarello, V; Scian, C; Mazzoldi, P; Mattei, G Non-linear absorption tuning by composition control in bimetallicplasmonic nanoprism arrays, NANOSCALE, 7 (29):12411-12418;10.1039/c5nr01715g 2015

2301. Tiu, BDB; Advincula, RC Plasmonics and templated systems forbioapplications, RENDICONTI LINCEI-SCIENZE FISICHE E NATURALI,26 143-160; 2 10.1007/s12210-015-0416-3 AUG 2015

2300. Pathak, H; Ji, A; Sharma, R; Sharma, RP Optical Properties of MetalSubwavelength Structures for Realistic Geometries in a DielectricMatrix Using DDA: an Error Analysis, PLASMONICS, 10 (4):783-789;10.1007/s11468-014-9865-2 AUG 2015

2299. Siabi-Garjan, A; Savaloni, H Extinction Spectra and Electric Near-Field Distribution of Mn Nano-Rod Based Sculptured Thin Films:Experimental and Discrete Dipole Approximation Results, PLAS-MONICS, 10 (4):861-872; 10.1007/s11468-014-9873-2 AUG 2015

2298. Lovatel, R.H., Neves, R.M., Oliveira, G.R., (...), Carli, L.N., Giovanela,M. Disinfection of biologically treated industrial wastewater usingmontmorillonite/alginate/nanosilver hybrids, 2015 Journal of Wa-ter Process Engineering 7, pp. 273-279

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2296. Teodorescu, C.M. Image molecular dipoles in surface enhancedRaman scattering, Physical Chemistry Chemical Physics Volume17, Issue 33, 21 January 2015, Pages 21302-21314

2295. Deng, Y., Liu, G., Zhang, L., Ming, H. Far- and near-�eld opticalproperties of Al nanorod by discrete dipole approximation, 2015Journal of Modern Optics 62 (15), pp. 1199-1203

2294. Tu, W., Zhou, Y., Li, H., Li, P., Zou, Z. Au atTiO2 yolk-shell hollowspheres for plasmon-induced photocatalytic reduction of CO2 tosolar fuel via a local electromagnetic �eld, 2015 Nanoscale 7 (34),pp. 14232-14236

2293. Alsawa�a, M; Wahbeh, M; Truong, VV Investigation of the Validityof the Universal Scaling Law on Linear Chains of Silver Nanopar-ticles, JOURNAL OF NANOMATERIALS, 10.1155/2015/983413 2015

2292. Chervinskii, S; Drevinskas, R; Karpov, DV; Beresna, M; Lipovskii, AA;Svirko, YP; Kazansky, PG Revealing the nanoparticles aspect ratioin the glass-metal nanocomposites irradiated with femtosecondlaser, SCIENTIFIC REPORTS, 5 10.1038/srep13746 SEP 8 2015

2291. Brazhe, NA; Evlyukhin, AB; Goodilin, EA; Semenova, AA; Novi-kov, SM; Bozhevolnyi, SI; Chichkov, BN; Sarycheva, AS; Baizhu-manov, AA; Nikelshparg, EI; Deev, LI; Maksimov, EG; Maksimov,GV; Sosnovtseva, O Probing cytochrome c in living mitochondriawith surface-enhanced Raman spectroscopy, SCIENTIFIC REPORTS,5 10.1038/srep13793 SEP 8 2015

2290. Cogollo-Olivo, B.H., Seriani, N., Montoya, J.A. Unbiased structuralsearch of small copper clusters within DFT, 2015 Chemical Physics461, pp. 20-24

2289. Smith, A.F., Weiner, R.G., Bower, M.M., Dragnea, B., Skrabalak, S.E.Structure versus Composition: A Single-Particle Investigation ofPlasmonic Bimetallic Nanocrystals, 2015 Journal of Physical Che-mistry C 119 (38), pp. 22114-22121

2288. Wan, A., Wang, T., Yin, T., (...), Shen, Z.X., Nijhuis, C.A. Plasmon-Modulated Photoluminescence of Single Gold Nanobeams, 2015ACS Photonics 2 (9), pp. 1348-1354

2287. Saylor, C., Novak, E., Debu, D., Herzog, J.B. Investigation of ma-ximum optical enhancement in single gold nanowires and triplenanowire arrays, 2015 Journal of Nanophotonics 9 (1), 093053

2286. Kluczyk, K., Jacak, W. Damping-induced size e�ect in surface plas-mon resonance in metallic nano-particles: Comparison of RPA mi-croscopic model with numerical �nite element simulation (COM-SOL) and Mie approach, 2016 Journal of Quantitative Spectros-copy and Radiative Transfer 168, 5072, pp. 78-88

2285. Mattox, T.M., Ye, X., Manthiram, K., Schuck, PJ, Alivisatos, A.P., Ur-ban, J.J. Chemical Control of Plasmons in Metal Chalcogenide andMetal Oxide Nanostructures, 2015 Advanced Materials 27 (38), pp.5830-5837

2284. Diaz-Egea, C; Ben, T; Herrera, M; Hernandez, J; Pedrueza, E; Valdes,JL; Martinez-Pastor, JP; Attouchi, F; Mafhoud, Z; Stephan, O; Molina,SI Mapping the plasmonic response of gold nanoparticles embed-ded in TiO2 thin �lms, NANOTECHNOLOGY, 26 (40):10.1088/0957-4484/26/40/405702 OCT 9 2015

2283. Islam, NU; Ahsan, F; Khan, I; Shah, MR; Shahid, M; Khan, MA GreenSynthesis and Biological Activities of Gold Nanoparticles Functio-nalized with Citrus reticulata, Citrus aurantium, Citrus sinensis andCitrus grandis, JOURNAL OF THE CHEMICAL SOCIETY OF PAKISTAN,37 (4):721-731; AUG 2015

2282. Bae, G.-T., Aikens, C.M. Time-Dependent Density Functional TheoryStudies of Optical Properties of Au Nanoparticles: Octahedra, Trun-cated Octahedra, and Icosahedra, 2015 Journal of Physical Che-mistry C 119 (40), pp. 23127-23137

2281. Battie, Y., Resano-Garcia, A., En Naciri, A., Akil, S., Chaoui, N. De-termination of morphological characteristics of metallic nanopar-ticles based on modi�ed Maxwell-Garnett �tting of optical respon-ses, 2015 Applied Physics Letters 107 (14), 143104

2280. Bansal, A; Sekhon, JS; Verma, SS Dimensional and com-positional dependent analysis of plasmonic bimetallic na-norods, JOURNAL OF MODERN OPTICS, 62 (19):1665-1673;10.1080/09500340.2015.1063725 2015

2279. Lin, LL; Wang, Q Microplasma: A New Generation of Technologyfor Functional Nanomaterial Synthesis, PLASMA CHEMISTRY ANDPLASMA PROCESSING, 35 (6):925-962; 10.1007/s11090-015-9640-y NOV 2015

2278. Patel, AN; Martinez-Marrades, A; Brasiliense, V; Koshelev, D; Bes-bes, M; Kuszelewicz, R; Combellas, C; Tessier, G; Kanou�, F Decip-hering the Elementary Steps of Transport-Reaction Processes atIndividual Ag Nanoparticles by 3D Super localization Microscopy,NANO LETTERS, 15 (10):6454-6463; 10.1021/acs.nanolett.5b02921OCT 2015

2277. Guidelli, E.J., Ramos, A.P., Ba�a, O. Silver nanoparticle �lms formetal enhanced luminescence: Toward development of plasmo-nic radiation detectors for medical applications, 2016 Sensors andActuators, B: Chemical 224, pp. 248-255

2276. Vartia, O.S., Yla-Oijala, P., Markkanen, J., Puupponen, S; Seppala,A; Sihvola, A., Ala-Nissila, T. On the applicability of discrete dipoleapproximation for plasmonic particles, 2016 Journal of Quantita-tive Spectroscopy and Radiative Transfer 169, pp. 23-35


2275. Xu, H., Hajisalem, G., Steeves, G.M., Gordon, R., Choi, B.C. Nanorodsurface plasmon enhancement of laser-induced ultrafast demag-netization, 2015 Scienti�c Reports 5, 15933

2274. Goel, P., Singh, J.P. Fabrication of silver nanorods embedded inPDMS �lm and its application for strain sensing, 2015 Journal ofPhysics D: Applied Physics 48 (44), 445303

2273. Vita, F., Boccia, A., Marrani, A.G., (...), Arduini, A., Secchi, A.Calix[4]arene-Functionalised Silver Nanoparticles as Hosts forPyridinium-Loaded Gold Nanoparticles as Guests, 2015 Chemistry- A European Journal 21 (43), pp. 15428-15438

2272. Kumar, A., Vyas, G., Bhatt, M., Bhatt, S., Paul, P. Silver nanoparti-cle based highly selective and sensitive solvatochromatic sensorfor colorimetric detection of 1,4-dioxane in aqueous media, 2015Chemical Communications 51 (88), pp. 15936-15939

2271. Tsai, M.-S., Liu, T.-K., Tsen, C.-Y., Ting, C.-C. Polarization sensitivityof light di�raction for periodic array of anisotropic gold nanopar-ticles, 2015 Applied Physics Letters 106 (24), 241107

2270. Munoz-Rosas, AL; Rodriguez-Gomez, A; Arenas-Alatorre, JA;Alonso-Huitron, JC Photoluminescence enhancement from siliconquantum dots located in the vicinity of a monolayer of gold na-noparticles, RSC ADVANCES, 5 (113):92923-92931; 2015

2269. Attanayake, T., Premaratne, M., Agrawal, G.P. Characterizing theOptical Response of Symmetric Hemispherical Nano-dimers, 2015Plasmonics 10 (6), pp. 1453-1466

2268. Bakhti, S., Destouches, N., Tishchenko, A.V. Singular Representa-tion of Plasmon Resonance Modes to Optimize the Near- and Far-Field Properties of Metal Nanoparticles, 2015 Plasmonics 10 (6),pp. 1391-1399

2267. Pathak, N.K., Pandey, G.K., Ji, A., Sharma, R.P. Study of Light Ex-tinction and Surface Plasmon Resonances of Metal Nanocluster:a Comparison Between Coated and Non-coated Nanogeometry,2015 Plasmonics 10 (6), pp. 1597-1606

2266. Raza, So., Kadkhodazadeh, S., Christensen, T., (...), Mortensen, N.A.,Stenger, N. Multipole plasmons and their disappearance in few-nanometre silver nanoparticles, 2015 Nature Communications 6,8788

2265. Signoretto, M., Suarez, I., Chirvony, V.S., (...), Rodriguez-Canto, P.J.,Martinez-Pastor, J. Polymer waveguide couplers based on metalnanoparticle-polymer nanocomposites, 2015 Nanotechnology 26(47), 475201

2264. Akhlaghi, M. Optimization of the plasmonic nano-rods-based ab-sorption coe�cient using TLBO algorithm, 2015 Optik 126 (24), pp.5033-5037

2263. DAgostino, S Size and shape dependence of localized surface plas-mon resonances, (Book Chapter) 2013 Handbook of MolecularPlasmonics pp. 137-174

2262. Constantin, D. Why the aspect ratio? Shape equivalence for theextinction spectra of gold nanoparticles, 2015 European PhysicalJournal E 38 (11), 116, pp. 1-6

2261. Zarpelon, F., Galiotto, D., Aguzolli, C., (...), Crespo, J.D.S., Gio-vanela, M. Removal of coliform bacteria from industrial waste-waters using polyelectrolytes/silver nanoparticles self-assembledthin �lms 2016 Journal of Environmental Chemical Engineering 4(1), pp. 137-146

2260. De Antoni, L.O., Loguercio, L.F., Rodrigues, M.R.F., (...), Ferreira, J.,Leite Santos, M.J. E�ect of gold nanoparticles on the structural andoptical stability of poly (3-hexylthiophene), 2016 Polymer Degra-dation and Stability 123, pp. 62-68

2259. Liu, C., Lv, J., Wang, F., (...), Liu, Q., Chu, P.K. Analysis of Locali-zed Surface Plasmon Resonance in Ag/ITO/CdS/SiO2 MultilayeredNanostructured Composite, 2015 Nano10 (8), 1550117

2258. Sinha, SN; Paul, D; Halder, N; Sengupta, D; Patra, SK Green synthe-sis of silver nanoparticles using fresh water green alga Pithophoraoedogonia (Mont.) Wittrock and evaluation of their antibacterialactivity, APPLIED NANOSCIENCE, 5 (6):703-709; 10.1007/s13204-014-0366-6 AUG 2015

2257. Tsuboi, A., Nakamura, K., Kobayashi, N. Chromatic control of mul-ticolor electrochromic device with localized surface plasmon reso-nance of silver nanoparticles by voltage-step method, 2016 SolarEnergy Materials and Solar Cells 145, pp. 16-25

2256. Heisler, F., Babich, E., Scherbak, S., (...), Samusev, A., Lipovskii, A.A.Resonant Optical Properties of Single Out-Di�used Silver Nanois-lands, 2015 Journal of Physical Chemistry C 119 (47), pp. 26692-26697

2255. Purbia, R., Paria, S. Yolk/shell nanoparticles: Classi�cations, synthe-sis, properties, and applications, 2015 Nanoscale 7 (47), pp. 19789-19873

2254. Bakhti, S; Destouches, N; Tishchenko, AV Singular Representationof Plasmon Resonance Modes to Optimize the Near- and Far-FieldProperties of Metal Nanoparticles, PLASMONICS, 10 (6):1391-1399;10.1007/s11468-015-9937-y DEC 2015

2253. Cogollo-Olivo, BH; Seriani, N; Montoya, JA Unbiased structuralsearch of small copper clusters within DFT, CHEMICAL PHYSICS,461 20-24; 10.1016/j.chemphys.2015.08.023 NOV 5 2015

2252. Pathak, NK; Pandey, GK; Ji, A; Sharma, RP Study of Light Extinctionand Surface Plasmon Resonances of Metal Nanocluster: a Compa-rison Between Coated and Non-coated Nanogeometry, PLASMO-NICS, 10 (6):1597-1606; 10.1007/s11468-015-9978-2 DEC 2015

2251. Obradovic, M; Di Vece, M; Asselberghs, I; Grandjean, D; Clays,K; Lievens, P Photoluminescence as a Probe of the Elec-trical Charge Dependence of Gold Nanoparticles, JOURNALOF NANOSCIENCE AND NANOTECHNOLOGY, 15 (12):9766-9771;10.1166/jnn.2015.10794 DEC 2015

2250. Sharvani, S; Upadhayaya, K; Kumari, G; Narayana, C; Shiva-prasad, SM Nano-morphology induced additional surface plas-mon resonance enhancement of SERS sensitivity in Ag/GaNnanowall network, NANOTECHNOLOGY, 26 (46):10.1088/0957-4484/26/46/465701 NOV 20 2015

2249. Nedyalkov, N.N., Nakajima, Y., Takami, A., (...), Karashanova, D.,Terakawa, M. Laser induced morphological and optical propertieschanges in Au doped aluminum oxide and silicon oxide thin �lms,2016 Optics and Laser Technology 79, pp. 179-187

2248. Tsuboi, A., Nakamura, K., Kobayashi, N. Chromatic control of mul-ticolor electrochromic device with localized surface plasmon reso-nance of silver nanoparticles by voltage-step method, 2016 SolarEnergy Materials and Solar Cells 145, pp. 16-25

2247. Gokhale, S. E�ects of engineered nanomaterials released into theatmosphere, 2016 Journal of Hazardous, Toxic, and RadioactiveWaste 20 (1), B4015005

2246. Kong, D., Jiang, L., Drucker, J. Interpreting plasmonic response ofepitaxial Ag/Si(100) island ensembles, 2015 Journal of Applied Phy-sics 118 (21), 213103

2245. Khan, M.K., MacLachlan, M.J. Polymer and Carbon Spheres with anEmbedded Shell of Plasmonic Gold Nanoparticles, 2015 ACS MacroLetters 4 (12), pp. 1351-1355

2244. Aoki, P.H.B., Constantino, C.J.L., Oliveira, O.N., Aroca, R.F. Plasmo-nics in Analytical Spectroscopy, 2015 ACS Symposium Series 1215,pp. 269-301

2243. Lai, C.-F., Wang, Y.-C., Wu, C.-L., Zeng, J.-Y., Lin, C.-F. Preparationof a colloidal photonic crystal containing CuO nanoparticles withtunable structural colors, 2015 RSC Advances 5 (127), pp. 105200-105205


2242. Bhargava, A., Jain, N., Barathi, L.M., (...), Yun, Y.-S., Panwar, J. Synt-hesis, characterization and mechanistic insights of mycogenic ironoxide nanoparticles, (Book Chapter) 2014 Nanotechnology for Sus-tainable Development, First Edition

2241. Lee, JE; Chung, K; Lee, J; Shin, K; Kim, DH In Situ Studiesof Surface-Plasmon-Resonance-Coupling Sensor Mediated byStimuli-Sensitive Polymer Linker, ADVANCED FUNCTIONAL MATE-RIALS, 25 (43):6716-6724; 10.1002/adfm.201503340 NOV 18 2015

2240. Sarkar, M; Bryche, JF; Moreau, J; Besbes, M; Barbillon, G; Barten-lian, B; Canva, M Generalized analytical model based on harmoniccoupling for hybrid plasmonic modes: comparison with numericaland experimental results, OPTICS EXPRESS, 23 (21):27376-27390;10.1364/OE.23.027376 OCT 19 2015

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2238. Hulkoti, N.I., Taranath, T.C. E�ect of various physico-chemical fac-tors on synthesis of biogenic silver nanoparticles using leaf ex-tract of cananga odorata (Lam.) Hook.F. & Thomson. and its anti-bacterial e�ect, 2015 Source of the DocumentInternational Journalof Pharmaceutical Sciences Review and Research 35 (2), pp. 213-218

2237. Caro, C., Gamez, F., Sayagues, M.J., Polvillo, R., Royo, J.L. AgACTiO2nanoparticles with microbiocide properties under visible light,2015 Materials Research Express 2 (5), 055002

2236. Cacciato, G; Ru�no, F; Zimbone, M; Reitano, R; Privitera, V; Grimal-di, MG Au thin �lms nano-structuration on polycrystalline anata-se and rutile TiO2 substrates towards photocatalytic applications,MATERIALS SCIENCE IN SEMICONDUCTOR PROCESSING, 42 40-44;SI 10.1016/j.mssp.2015.07.074 1 FEB 2016

2235. Leong, KY; Ong, HC; Amer, NH; Norazrina, MJ; Risby, MS; Ahmad,KZK An overview on current application of nano�uids in solarthermal collector and its challenges, RENEWABLE & SUSTAINABLEENERGY REVIEWS, 53 1092-1105; 10.1016/j.rser.2015.09.060 JAN2016

2234. Ahmed, H., Doran, J., McCormack, S.J. Increased short-circuit cu-rrent density and external quantum e�ciency of silicon and dyesensitised solar cells through plasmonic luminescent down-shi�inglayers, 2016 Solar Energy 126, pp. 146-155

2233. Bastus, N.G., Piella, J., Puntes, V. Quantifying the Sensitivity of Mul-tipolar (Dipolar, Quadrupolar, and Octapolar) Surface Plasmon Re-sonances in Silver Nanoparticles: The E�ect of Size, Composition,and Surface Coating, 2016 Langmuir 32 (1), pp. 290-300

2232. Roychoudhury, P., Ghosh, S., Pal, R. Cyanobacteria mediated greensynthesis of gold-silver nanoalloy, 2016 Journal of Plant Bioche-mistry and Biotechnology 25 (1), pp. 73-78

2231. Lee, D., Lee, J., Song, K.-H., Rhee, H., Jang, D.-J. Formation anddecay of charge carriers in aggregate nano�bers consisting ofpoly(3-hexylthiophene)-coated gold nanoparticles, 2016 PhysicalChemistry Chemical Physics 18 (3), pp. 2087-2096

2230. Lee, J.-E., Chung, K., Lee, J., Shin, K., Kim, D.H. In Situ Stu-dies of Surface-Plasmon-Resonance-Coupling Sensor Mediated byStimuli-Sensitive Polymer Linker, 2015 Advanced Functional Mate-rials 25 (43), pp. 6716-6724

2229. Caro, C., Sayagues, M.J., Franco, V., (...), Zaderenko, P., G·mez, F. Ahybrid silver-magnetite detector based on surface enhanced Ra-man scattering for di�erentiating organic compounds, 2016 Sen-sors and Actuators, B: Chemical 228, pp. 124-133

2228. Tuersun, P. Simulated localized surface plasmon spectra of singlegold and silver nanobars, 2016 Optik 127 (6), pp. 3466-3470

2227. Jahn, M; Patze, S; Hidi, IJ; Knipper, R; Radu, AI; Muhlig, A; Yuksel, S;Peksa, V; Weber, K; Mayerhofer, T; Cialla-May, D; Popp, J Plasmonicnanostructures for surface enhanced spectroscopic methods, 2016Analyst 141 (3), pp. 756-793

2226. He, Z., Yuan, X., Wang, Q., (...), Zhang, H., Yang, H. MulticoloredElectrochromic Device from the Reversible Aggregation and De-centralization of Silver Nanoparticles, 2016 Advanced Optical Ma-terials 4 (1), pp. 106-111

2225. Chirico, G., Pallavicini, P., Borzenkov, M. Physical properties of goldnanostars, 2015 Gold Nanostars: Synthesis, Properties and Biome-dical Application pp. 25-42

2224. Teich, E.G., Van Anders, G., Klotsa, D., Dshemuchadse, J., Glotzer,S.C. Clusters of polyhedra in spherical con�nement, 2016 Procee-dings of the National Academy of Sciences of the United States ofAmerica 113 (6), pp. E669-E678

2223. Wang, Y., Ge, C.-W., Zou, Y.-F., (...), Yu, Y.-Q., Luo, L.-B. Plasmo-nic Indium Nanoparticle-Induced High-Performance Photoswitchfor Blue Light Detection, 2016 Advanced Optical Materials 4 (2),pp. 291-296

2222. Alsaif, M.M.Y.A., Field, M.R., Daeneke, T., T; Chrimes, AF; Zhang, W;Carey, BJ; Berean, KJ; Walia, S; van Embden, J; Zhang, BY; Latham,K; Kalantar-Zadeh, K., Ou, J.Z. Exfoliation solvent dependent plas-mon resonances in two-dimensional sub-stoichiometric molybde-num oxide nano�akes, A2016 ACS Applied Materials and Interfaces8 (5), pp. 3482-3493

2221. Chen, F., Yao, D. Realizing of plasmon Fano resonance with a metalnanowall moving along MIM waveguide, 2016 Optics Communica-tions 369, pp. 72-78

2220. Pescaglini, A., Secco, E., Martin, A., Cammi, D; Ronning, C; Cantare-ro, A; Garro, N., Iacopino, D. Non-resonant Raman spectroscopy ofindividual ZnO nanowires via Au nanorod surface plasmons, 2016Journal of Materials Chemistry C 4 (8), pp. 1651-1657

2219. Madhavi, V; Kondaiah, P; Shaik, H; Raoa, GM Phase de-pendent photocatalytic activity of Ag loaded TiO2 �lmsunder sun light, APPLIED SURFACE SCIENCE, 364 732-739;10.1016/j.apsusc.2015.12.133 FEB 28 2016

2218. Recordati, C; De Maglie, M; Bianchessi, S; Argentiere, S; Cella, C;Mattiello, S; Cubadda, F; Aureli, F; DAmato, M; Raggi, A; Lenardi, C;Milani, P; Scanziani, E Tissue distribution and acute toxicity of silvera�er single intravenous administration in mice: nano-speci�c andsize-dependent e�ects, PARTICLE AND FIBRE TOXICOLOGY, 13 (1), 122016

2217. Daneshfar, N; Moradi, M An analytical solution for light scatteringby metallic cylindrical nanoparticles with core-shell structure, MO-DERN PHYSICS LETTERS B, 30 (5):10.1142/S021798491650041X FEB20 2016

2216. Chen, F., Yao, D. Realizing of plasmon Fano resonance with a metalnanowall moving along MIM waveguide, 2016 Optics Communica-tions 369, pp. 72-78

2215. Edison, TNJI; Atchudan, R; Lee, YR Optical Sensor for DissolvedAmmonia Through the Green Synthesis of Silver Nanoparticles byFruit Extract of Terminalia chebula, JOURNAL OF CLUSTER SCIENCE,27 (2):683-690; 10.1007/s10876-016-0972-4 MAR 2016

2214. Garg, V; Sengar, BS; Awasthi, V; Aaryashree; Sharma, P; Mukherjee,C; Kumar, S; Mukherjee, S Localized surface plasmon resonanceon Au nanoparticles: tuning and exploitation for performance en-hancement in ultrathin photovoltaics, RSC ADVANCES, 6 (31):26216-26226; 10.1039/c5ra25575a 2016

2213. Bansal, A; Verma, SS Dimensional In�uence on Plasmonic Respon-se of Trimetallic Nanorods, ADVANCED MATERIALS AND RADIATIONPHYSICS (AMRP-2015), 1675 10.1063/1.4929299 2015


2212. Biswas, S; Kole, AK; Tiwary, CS; Kumbhakar, P Observa-tion of Size-Dependent Electron-Phonon Scattering andTemperature-Dependent Photoluminescence Quenching inTriangular-Shaped Silver Nanoparticles, PLASMONICS, 11(2):593-600; 10.1007/s11468-015-0072-6 APR 2016

2211. Niklasson, GA; Lansaker, PC; Li, SY; Granqvist, CG Plasmonic thin�lms for application in improved chromogenic windows, INERACONFERENCE 2015: LIGHT IN NANOSCIENCE AND NANOTECHNO-LOGY (LNN 2015), 682 10.1088/1742-6596/682/1/012003 2016Book Series: Journal of Physics Conference Series

2210. Phadke, P; Chawla, S Sui Generis Cerulean Fluorescence fromYAG:Ce by Selective Plasmonic Mode Coupling with Silver Na-norods, PLASMONICS, 11 (2):395-402; 10.1007/s11468-015-0061-9APR 2016

2209. Zhao, ZY; Rossi, VAV; Baltrus, JP; Ohodnicki, PR; Carpenter, MA AgNanoparticles Supported on Yttria-Stabilized Zirconia: A Synergis-tic System within Redox Environments, JOURNAL OF PHYSICAL CHE-MISTRY C, 120 (9):5020-5032; 10.1021/acs.jpcc.6b00189 MAR 102016

2208. Abdullah, OG; Tahir, DA; Saber, DR Optical Properties of the Synt-hesized Cr2S3 Nanoparticles Embedded in Polyvinyl Alcohol, ARO-THE SCIENTIFIC JOURNAL OF KOYA UNIVERSITY, 3 (1):45-49; MAY2015


2206. Mu, HW; Lv, JW; Liu, ZT; Zheng, SJ; Yang, L; Sun, T; Liu, Q; Liu, COptical properties of local surface plasmon resonance in Ag/ITOsliced nanosphere by the discrete dipole approximation, 2016 Ap-plied Physics A: Materials Science and Processing 122 (4), 419

2205. Zhang, ML; Xiang, HP; Zhang, X; Lu, G Quantum electrodyna-mics and plasmonic resonance of metallic nanostructures, JOUR-NAL OF PHYSICS-CONDENSED MATTER, 28 (15):10.1088/0953-8984/28/15/155302 APR 20 2016

2204. Eisa, W.H., Al-Ashkar, E., El-Mossalamy, S.M., Ali, S.S.M. PVP in-duce self-seeding process for growth of Au at Ag core at shellnanocomposites, 2016 Chemical Physics Letters 651, 28-33

2203. Erwin, WR; Zarick, HF; Talbert, EM; Bardhan, R Light trapping inmesoporous solar cells with plasmonic nanostructures, ENERGY &ENVIRONMENTAL SCIENCE, 9 (5):1577-1601; 10.1039/c5ee03847b2016

2202. Wang, L; Chen, R; Ren, ZF; Ge, CW; Liu, ZX; He, SJ; Yu, YQ; Wu,CY; Luo, LB Plasmonic silver nanosphere enhanced ZnSe nanorib-bon/Si heterojunction optoelectronic devices, 2016 Nanotechno-logy 27 (21), 215202

2201. Trejo-Valdez, M., Sobral, H., Martinez-Gutierrez, H., Torres-Torres,C. Study of the electrical and nanosecond third order nonlinearoptical properties of ZnO �lms doped with Au and Pt nanoparticles,2016 Thin Solid Films 605, pp. 84-88

2200. Resano-Garcia, A., Battie, Y., Naciri, A.E., Chaoui, N. Interaction ofa converging laser beam with a Ag colloidal solution during theablation of a Ag target in water, 2016 Nanotechnology 27 (21),215705

2199. Carbo-Argibay, E., Mourdikoudis, S., Pastoriza-Santos, I., Perez-Juste, J. Nanocolloids of Noble Metals (Book Chapter) 2016 Na-nocolloids: A Meeting Point for Scientists and Technologists pp.37-73

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2197. Al-Azawi, M.A., Bidin, N., Abbas, K.N., Bououdina, M., Azzez, S.A.Broadband optical absorption enhancement of N719 dye in etha-nol by gold-silver alloy nanoparticles fabricated under laser abla-tion technique, 2016 Journal of Nanophotonics 10 (2), 026009

2196. De Farias, M.A., Do Carmo Goncalves, M. Synthesis and appli-cations of polystyrene-block-poly(N-vinyl-2-pyrrolidone) copoly-mers, 2016 Polimeros 26 (1) Pages 1-10

2195. Nikov, RG; Nedyalkov, NN; Atanasov, PA; Hirsch, D; Rauschenbach,B; Grochowska, K; Sliwinski, G Characterization of Ag nanostruc-tures fabricated by laser-induced dewetting of thin �lms, APPLIEDSURFACE SCIENCE, 374 36-41; 10.1016/j.apsusc.2015.09.004 JUN 302016

2194. Yao, H., Shiratsu, T. Individual and collective modes of surfacemagnetoplasmon in thiolate-protected silver nanoparticles studiedby MCD spectroscopy, 2016 Nanoscale 8 (21) 11264-11274

2193. Bottomley, A., Prezgot, D., Coyle, J.P., Ianoul, A. Dynamics of na-nocubes embedding into polymer �lms investigated: Via spatiallyresolved plasmon modes, 2016 Nanoscale 8 (21) 11168-11176

2192. Azarian, A., Babaei, F. Localized surface plasmons in face to facedimer silver triangular prism nanoparticles, 2016 Journal of Ap-plied Physics 119 (20), 203103

2191. Anquillare, EL; Miller, OD; Hsu, CW; DeLacy, BG; Joannopoulos,JD; Johnson, SG; Soljacic, M E�cient, designable, and broad-bandwidth optical extinction via aspect-ratio-tailored silver nano-disks, 2016 Optics Express 24 (10) 10806-10816

2190. Xing, Z., Zong, X., Butburee, T., (...), Bai, Y., Wang, L. Nanohybridmaterials of titania nanosheets and plasmonic gold nanoparticlesfor e�ective hydrogen evolution, 2016 Applied Catalysis A: General521, pp. 96-103

2189. He, XJ; Zhang, QF; Lu, GJ; Ying, GB; Wu, FM; Jiang, JX Tunable ul-trasensitive terahertz sensor based on complementary graphenemetamaterials, 2016 RSC Advances 6 (57), pp. 52212-52218

2188. Gezgin, SY; Kilic, HS; Kepceoglu, A; Bayir, S; Nalbantoglu, IE; To-prak, A, Plasmonic Tuning of Gold Doped Thin Films for Layers ofPhotovoltaic Devices, Edited by: Akkus B; Oktem Y; Yalcin LS; MutluRBC; Dogan GS, 9TH INTERNATIONAL PHYSICS CONFERENCE OF THEBALKAN PHYSICAL UNION (BPU-9), 1722 10.1063/1.4944228 2016

2187. Pathak, NK; Sharma, RP Study of Broadband Tunable Properties ofSurface Plasmon Resonances of Noble Metal Nanoparticles UsingMie Scattering Theory: Plasmonic Perovskite Interaction, PLASMO-NICS, 11 (3):713-719; 10.1007/s11468-015-0097-x JUN 2016

2186. Xu, Z., Liu, Y., Ren, F., Yang, F., Ma, D. Development of functionalnanostructures and their applications in catalysis and solar cells,2016 Coordination Chemistry Reviews 320-321, pp. 153-180

2185. Tsuzuki, T. Properties of nanoparticulate materials, (Book Chapter)2013, Nanotechnology Commercialisation, pp. 1-37

2184. Kim, J; Agrawal, A; Krieg, F; Bergerud, A; Milliron, DJ The Interplayof Shape and Crystalline Anisotropies in Plasmonic SemiconductorNanocrystals, NANO LETTERS, 16 (6):3879-3884; 2016

2183. Khafaji, M., Vossoughi, M., Hormozi-Nezhad, M.R., (...), Borrnert, F.,Irajizad, A. A new bifunctional hybrid nanostructure as an activeplatform for photothermal therapy and MR imaging, 2016 Scienti�cReports 6, 27847

2182. Poorani, G., Rao, A.P., Singaravelu, G., Manickam, E. Plasmonicphototherapy using gold nanospheres and gold nanorods irradia-ted with light-emitting diodes, 2016 Journal of Nanophotonics10(2), 026027

2181. Jeeyoung Lee and Myeongkyu Lee Laser-Induced Conversion ofAu Powders to Highly Stable Nanoparticles with a Narrow SizeDistribution, J. Phys. Chem. C, 2016, 120 (24), pp 13256?13262


2180. Pathak, H; Pathak, NK; Ji, A; Roopak, S; Pandey, GK; Sharma, RPBroadband Scattering With Strong Electric Field Coupling BetweenMetal Nanostructures Using DDA Simulation: Role of Di�erent Or-ganic Environments, IEEE JOURNAL OF PHOTOVOLTAICS, 6 (4):940-951; 10.1109/JPHOTOV.2016.2559780 JUL 2016

2179. Lee, D., Kim, J.K., Jang, D.-J. Excited-state dynamics of an amphip-hilic diblock copolymer self-assembled from mixed solvents, 2016Polymer (United Kingdom) 99, pp. 122-129

2178. Song, JE; Park, JH; La, JA; Park, S; Jeong, MK; Cho, EC Use of �uo-rescence signals generated by elastic scattering under monochro-matic incident light for determining the scattering e�ciencies ofvarious plasmonic nanoparticles, 2016 Analyst 141 (15), pp. 4632-4639

2177. Barnes, W.L. Particle plasmons: Why shape matters, 2016 AmericanJournal of Physics 84 (8), pp. 593-601

2176. Sudheer; Porwal, S; Bhartiya, S; Rao, BT; Tiwari, P; Srivastava, H;Sharma, TK; Rai, VN; Srivastava, AK; Naik, PA Di�raction e�ciencyof plasmonic gratings fabricated by electron beam lithographyusing a silver halide �lm, 2016 Journal of Applied Physics 120 (4),043101

2175. Onodera, R., Tsuboi, A., Nakamura, K., Kobayashi, N. Colorationmechanisms of Ag deposition-based multicolor electrochromic de-vice investigated by morphology of Ag deposit and its optical pro-perties, 2016 Journal of the Society for Information Display 24 (7),pp. 424-432

2174. Sardana, S.K., Komarala, V.K. Optical properties of hybrid plas-monic structure on silicon using transparent conducting-silvernanoparticles-silicon dioxide layers: The role of conducting oxi-de layer thickness in antire�ection, 2016 Journal of Optics (UnitedKingdom) 18 (7), 075004

2173. Chen, X., Jensen, L. Understanding the shape e�ect on the plasmo-nic response of small ligand coated nanoparticles, 2016 Journalof Optics (United Kingdom) 18 (7), 074009

2172. Fernandez-Valdes, D; Torres-Torres, C; Martinez-Gonzalez,CL; Trejo-Valdez, M; Hernandez-Gomez, LH; Torres-Martinez,RGyroscopic behavior exhibited by the optical Kerr e�ect inbimetallic Au?Pt nanoparticles suspended in ethanol, 2016 Journalof Nanoparticle Research 18 (7), 204

2171. Castillo, C., Buono-Core, G., Manzur, C., (...), Cabello, G., Chornik,B. Molybdenum trioxide thin �lms doped with gold nanoparti-cles grown by a sequential methodology: Photochemical Metal-Organic Deposition (PMOD) and DC-magnetron sputtering, 2016Journal of the Chilean Chemical Society 61 (1), pp. 2816-2820

2170. Sikdar, D., Hasan, S.B., Urbakh, M., Edel, J.B., Kornyshev, A.A. Un-ravelling the optical responses of nanoplasmonic mirror-on-mirrormetamaterials, 2016 Physical Chemistry Chemical Physics 18 (30),pp. 20486-20498

2169. Chan, T.M., Levitin, Y.Y., Kryskiv, O.S., Vedernikova, I.A. Charac-terization of Ag at Fe3O4 core-shell nanocomposites for biome-dical applications, 2015 Journal of Chemical and PharmaceuticalResearch 7 (5), pp. 816-819

2168. Britto Hurtado, R.; Cortez-Valadez, M.; Ramirez-Rodriguez, L. P.; etal. Instant synthesis of gold nanoparticles at room temperatureand SERS applications, PHYSICS LETTERS A 380, 2658-2663 (2016)

2167. Inbakandan, D., Kumar, C., Bavanilatha, M., (...), Kirubagaran, R.,Khan, S.A. Ultrasonic-assisted green synthesis of �ower like silvernanocolloids using marine sponge extract and its e�ect on oralbio�lm bacteria and oral cancer cell lines, 2016 Microbial Patho-genesis 99, pp. 135-141

2166. Firdhouse, M.J., Lalitha, P. Biogenic silver nanoparticles: Synthesis,characterization and its potential against cancer inducing bacteria,2016 Journal of Molecular Liquids 222, pp. 1041-1050

2165. Huang, Y.-L., Chang, W.S., Van Nguyen, C., (...), Hsu, Y.-J., Chu, Y.-H.Tunable photoelectrochemical performance of Au/BiFeO3 heteros-tructure, 2016 Nanoscale 8 (34), pp. 15795-15801

2164. Park, G.B., Singu, B.S., Hong, S.E., Yoon, K.R. Cyclodextrin-triazolederivative functionalized on Ag-SiO2 core-shell nanoparticles viaclick chemistry, 2016 Bulletin of the Korean Chemical Society 37(9), pp. 1501-1508

2163. Abbass, A.E., Swart, H.C., Kroon, R.E. Use of ZnO:Tb down-conversion phosphor for Ag nanoparticle plasmon absorptionusing a He-Cd ultraviolet laser, 2016 Luminescence pp. 1182-1186

2162. Bakhti, S; Tishchenko, AV; Zambrana-Puyalto, X; Bonod, N; Dhuey,SD; Schuck, PJ; Cabrini, S; Alayoglu, S; Destouches, N Fano-likeresonance emerging from magnetic and electric plasmon modecoupling in small arrays of gold particles, 2016 Scienti�c Reports6, 32061

2161. Prakash, J., Harris, R.A., Swart, H.C. Embedded plasmonic nanos-tructures: synthesis, fundamental aspects and their surface enhan-ced Raman scattering applications, 2016 International Reviews inPhysical Chemistry 35 (3), pp. 353-398

2160. Djuhana, D., Farishi, S., Putra, M.H., (...), Harmoko, A., Handayani,W. The polarization and distance e�ect of the double sphere silvernanoparticles to local surface plasmon resonance using boundaryelement approximation, 2016 AIP Conference Proceedings 1729,020032

2159. Gezgin, S.Y., Kilic, H.?., Kepceoglu, A., (...), Nalbantoglu, I.E., Toprak,A. Plasmonic tuning of gold doped thin �lms for layers of photo-voltaic devices, 2016 AIP Conference Proceedings 1722, 200013

2158. Shrivas, K., Nirmalkar, N., Ghosale, A., Thakur, S.S., Shankar, R. En-hancement of plasmonic resonance through an exchange reactionon the surface of silver nanoparticles: Application to the highlyselective detection of triazophos pesticide in food and vegetablesamples, 2016 RSC Advances 6 (84), pp. 80739-80747

2157. Ellis, C.T., Tischler, J.G., Glembocki, O.J., (...), Chigrin, D.N., Caldwell,J.D. Aspect-ratio driven evolution of high-order resonant modesand near-�eld distributions in localized surface phonon polaritonnanostructures, 2016 Scienti�c Reports 6, 32959

2156. Carrillo-Lopez, L.M., Soto-Hernandez, R.M., Zavaleta-Mancera,H.A., Vilchis-Nestor, A.R. Study of the Performance of the Orga-nic Extracts of Chenopodium ambrosioides for Ag NanoparticleSynthesis, 2016 Journal of Nanomaterials 2016, 4714162

2155. Hussain, M., Nafady, A., Sirajuddin, (...), Mahesar, S.A., Siddiqui, S.Cefuroxime derived copper nanoparticles and their application asa colorimetric sensor for trace level detection of picric acid, 2016RSC Advances 6 (86), pp. 82882-82889

2154. Cesca, T; Esquivel, HS; Gemo, E; Michieli, N; Kalinic, B; Ramirez,EVG; Cervantes, JMG; Rojo, RR; Esqueda, JAR; Mattei, G Wavelength-and polarization-dependent nonlinear optical properties of plas-monic nanoprism arrays, NONLINEAR OPTICS AND ITS APPLICA-TIONS IV, 9894 10.1117/12.2227065 2016 Proceedings of SPIE

2153. Thapa, DK; Pandey, A Cloning nanocrystal morphology withso� templates, CHEMICAL PHYSICS LETTERS, 658 315-318;10.1016/j.cplett.2016.06.056 AUG 1 2016

2152. Roopesh, R; Geedhika, K; DSouza, J; Anandhan, S; Bhat, KU; Ja-ya, MJ; Fathima, BS; Balakrishnan, RM Optimised microwave-assisted biosynthesis of silver nanoparticles from Notha-podytes foetida leaf extracts and its anti-microbial activi-ties, JOURNAL OF EXPERIMENTAL NANOSCIENCE, 11 (11):840-852;10.1080/17458080.2016.1169445 2016

2151. Smith, A.F., Weiner, R.G., Skrabalak, S.E. Symmetry-Dependent Op-tical Properties of Stellated Nanocrystals, 2016 Journal of PhysicalChemistry C 120 (37), pp. 20563-20571


2150. Sikdar, D., Kornyshev, A.A. Theory of tailorable optical responseof two-dimensional arrays of plasmonic nanoparticles at dielectricinterfaces, 2016 Scienti�c Reports 6, 33712

2149. Bossard-Giannesini, L., Cruguel, H., Lacaze, E., Pluchery, O. Plas-monic properties of gold nanoparticles on silicon substrates: Un-derstanding Fano-like spectra observed in re�ection, 2016 AppliedPhysics Letters 109 (11), 111901

2148. Gondal, MA; Adeseda, AA; Rashid, SG; Hameed, A; Aslam, M; Is-mail, IMI; Baig, U; Dastageer, MA; Al-Arfaj, AR; Rehman, AU Faci-le synthesis, characterization and photocatalytic performance ofAu-Ag alloy nanoparticles dispersed on graphitic carbon nitrideunder visible light irradiations, JOURNAL OF MOLECULAR CATALY-SIS A-CHEMICAL, 423 114-125; 10.1016/j.molcata.2016.06.013 NOV2016

2147. Scherbak, S.A., Lipovskii, A.A. Plasmonic properties of metal na-noislands: Surface integral equations approach, 2016 Journal ofPhysics: Conference Series 741 (1), 012120

2146. Salahvarzi, A., Mahani, M., Torkzadeh-Mahani, M., Alizadeh, R. Lo-calized surface plasmon resonance based gold nanobiosensor:Determination of thyroid stimulating hormone, 2017 AnalyticalBiochemistry 516, pp. 1-5

2145. Bhargava, A; Jain, N; Khan, MA; Pareek, V; Dilip, RV; Panwar, J Utili-zing metal tolerance potential of soil fungus for e�cient synthesisof gold nanoparticles with superior catalytic activity for degrada-tion of rhodamine B, 2016 Journal of Environmental Management183, pp. 22-32

2144. Kwon, SJ; Lee, GY; Jung, K; Jang, HS; Park, JS; Ju, H; Han, I; Ko, H APlasmonic Platform with Disordered Array of Metal Nanoparticlesfor Three-Order Enhanced Upconversion Luminescence and HighlySensitive Near-Infrared Photodetector, ADVANCED MATERIALS, 28(36):7899-7909; 10.1002/adma.201601680 SEP 28 2016

2143. Mohaghegh, F; Tehrani, AM; Materny, A Investigation of the chemi-cal enhancement contribution to SERS using a Kretschmann arran-gement, JOURNAL OF RAMAN SPECTROSCOPY, 47 (9):1029-1035; SI10.1002/jrs.4920 SEP 2016

2142. Pandey, GK; Pathak, NK; Ji, A; Pathak, H; Sharma, RP Study of Surfa-ce Enhanced Raman Scattering of Single Molecule Adsorbed on theSurface of Metal Nanogeometries: Electrostatic Approach, PLAS-MONICS, 11 (5):1343-1349; 10.1007/s11468-016-0181-x OCT 2016

2141. Imer, C; Gunay, E; Ovecoglu, ML E�ects of �ring temperatures andcompositions on the formation of nano particles in lustre layerson a lead-alkali glaze, CERAMICS INTERNATIONAL, 42 (15):17222-17228; 10.1016/j.ceramint.2016.08.014 NOV 15 2016

2140. Savaloni, H., Fakharpour, M., Siabi-Garjan, A., Placido, F., Babaei, F.Nano-structure and optical properties (plasmonic) of graded he-lical square tower-like (terraced) Mn sculptured thin �lms, 2017Applied Surface Science 393, pp. 234-255

2139. Piralaee, M., Asgari, A. Modeling of optimum light absorption inrandom plasmonic solar cell using e�ective medium theory, 2016Optical Materials 62, pp. 399-402

2138. Qin, F; Cui, XM; Ruan, QF; Lai, YH; Wang, JF; Ma, HG; Lin, HQ Role ofshape in substrate-induced plasmonic shi� and mode uncoveringon gold nanocrystals, 2016 Nanoscale 8 (40), pp. 17645-17657

2137. de Corny, ME; Chauvet, N; Laurent, G; Jeannin, M; Olgeirsson, L;Drezet, A; Huant, S; Dantelle, G; Nogues, G; Bachelier, G Wave-Mixing Origin and Optimization in Single and Compact AluminumNanoantennas, 2016 ACS Photonics 3 (10), pp. 1840-1846

2136. Kirakosyan, A.S., Stockman, M.I., Shahbazyan, T.V. Surface plas-mon lifetime in metal nanoshells, 2016 Physical Review B - Con-densed Matter and Materials Physics 94 (15), 155429

2135. Xie, T., Jing, C., Li, M., (...), Ding, Z., Long, Y.-T. PH-Response Mecha-nism of a Redox Reaction between Silver Ions and HydroquinoneAuthors of Document Year the Document was Publish 2016 Sour-ce of the DocumentJournal of Physical Chemistry C 120 (40), pp.23104-23110

2134. Violi, I.L., Gargiulo, J., Von Bilderling, C., Cortes, E., Stefani, F.D.Light-Induced Polarization-Directed Growth of Optically PrintedGold Nanoparticles, 2016 Nano Letters 16 (10), pp. 6529-6533

2133. Bhattacharya, S., Samanta, S.K. So�-Nanocomposites of Nanopar-ticles and Nanocarbons with Supramolecular and Polymer Gelsand Their Applications, 2016 Chemical Reviews 116 (19), pp. 11967-12028

2132. Garcia-Valenzuela, A., Morales-Luna, G., Marquez-Islas, R.,Vazquez-Estrada, O. A possible optical gauge for supervising par-ticle size in nano�uids, 2016 Materials Today: Proceedings 3 (8),pp. 2599-2607

2131. Contado, C., Argazzi, R., Amendola, V. Sedimentation �eld �owfractionation and optical absorption spectroscopy for a quantita-tive size characterization of silver nanoparticles, 2016 Journal ofChromatography A 1471, pp. 178-185

2130. Priecel, P., Salami, H.A., Padilla, R.H., Zhong, Z., Lopez-Sanchez,J.A. Anisotropic gold nanoparticles: Preparation and applicationsin catalysis, 2016 Cuihua Xuebao/Chinese Journal of Catalysis 37(10), pp. 1619-1650

2129. Ferrando, R. Optical properties of nanoalloys, 2016 Frontiers ofNanoscience 10, pp. 267-287

2128. Chen, C., Zhao, D., Hu, T., Sun, J., Yang, X. Highly �uorescent ni-trogen and sulfur co-doped graphene quantum dots for an inner�lter e�ect-based cyanide sensor, 2017 Sensors and Actuators, B:Chemical 241, pp. 779-788

2127. Navarro, A., Pava-Chipol, J., Martinez-Gonzalez, C.L., Trejo-Valdez, M., Hernandez-Gomez, L.H., Torres-Torres, C. Acoustically-controlled optical Kerr e�ect signals in bimetallic Au-Pt nanopar-ticles embedded in a TiO2 thin �lm, 2017 Optik 130, pp. 24-31

2126. Sharma, H., Singhal, R., Siva Kumar, V.V., Asokan, K. Structural,optical and electronic properties of Ag-TiO2 nanocomposite thin�lm, 2016 Applied Physics A: Materials Science and Processing 122(12), 1010

2125. Galindo, D.O.O., Utrera, O.H., Mejia, R.M., Aranda, M.S. Silver na-noparticles by laser ablation con�ned in alcohol using an argongas environment, 2016 Journal of Laser Micro Nanoengineering 11(2), pp. 158-163

2124. Reyes-Contreras, D., Gonzalez-Aguilar, M.A., Camacho-Lopez,M.A., Vigueras-Santiago, E., Camacho-Lopez, M. Photoluminescentcolloidal Cu at C-NPs suspensions synthesized by LASL, 2017 Op-tics and Laser Technology 90, pp. 102-108

2123. Wu, BH; Lee, J; Mubeen, S; Jun, YS; Stucky, GD; Moskovits, MPlasmon-Mediated Photocatalytic Decomposition of Formic Acidon Palladium Nanostructures, ADVANCED OPTICAL MATERIALS, 4(7):1041-1046; 10.1002/adom.201600055 JUL 2016

2122. Pathak, N.K., Pathak, H., Pandey, G.K., Ji, A., Sharma, R.P. Study ofexternal quantum e�ciency of plasmonic coupled bilayer activedevice: in�uence of layer thickness and nanoparticle �lling factor,2016 Applied Physics A: Materials Science and Processing 122 (12),1048

2121. Bozorgmehr, A., Yazdanparast, R., Mollasalehi, H. Non-crosslinkinggold nanoprobe-LAMP for simple, colorimetric, and speci�c detec-tion of Salmonella typhi, 2016 Journal of Nanoparticle Research18 (12), 351

2120. Liu, JJ; Yang, L; Huang, ZF Chiroptically Active Plasmonic Na-noparticles Having Hidden Helicity and Reversible Aqueous Sol-vent E�ect on Chiroptical Activity, SMALL, 12 (42):5902-5909;10.1002/smll.201601505 NOV 9 2016


2119. Liu, C; Lv, JW; Liu, ZT; Zheng, SJ; Liu, Q; Sun, T; Mu, HW; Chu, PKTheoretical Assessment of Localized Surface Plasmon ResonanceProperties of Au-Interlayer-Ag Multilayered Nanoshells, PLASMO-NICS, 11 (6):1589-1595; 10.1007/s11468-016-0214-5 DEC 2016

2118. Roopak, S; Pathak, NK; Sharma, R; Ji, A; Pathak, H; Sharma,RP Numerical Simulation of Extinction Spectra of PlasmonicallyCoupled Nanospheres Using Discrete Dipole Approximation: In-�uence of Compositional Asymmetry, PLASMONICS, 11 (6):1603-1612; 10.1007/s11468-016-0216-3 DEC 2016

2117. Shi, XW; Lou, ZZ; Zhang, P; Fujitsuka, MR; Majima, T 3D-Arrayof Au-TiO2 Yolk-Shell as Plasmonic Photocatalyst Boosting Multi-Scattering with Enhanced Hydrogen Evolution, ACS Applied Ma-terials & Interfaces, 8 (46):31738-31745; 10.1021/acsami.6b12940NOV 23 2016

2116. Kumar, S; Sood, AK Ultrafast Response of Plasmonic Nanostruc-tures, REVIEWS IN PLASMONICS 2015, 2015 131-167; Book Series:Reviews in Plasmonics

2115. Park, K; Jung, K; Kwon, SJ; Jang, HS; Byun, D; Han, IK; Ko, H Plasmo-nic Nanowire-Enhanced Upconversion Luminescence for Anticoun-terfeit Devices, ADVANCED FUNCTIONAL MATERIALS, 26 (43):7836-7846; 10.1002/adfm.201603428 NOV 15 2016

2114. Saha, S.K., Roy, P., Mondal, M.K., (...), Chowdhury, P., Babu, S.P.S.Development of chitosan based gold nanomaterial as an e�-cient anti�larial agent: A mechanistic approach, 2017 Carbohy-drate Polymers 157, pp. 1666-1676

2113. Ahmed, H., McCormack, S.J., Doran, J. Plasmonic luminescent downshi�ing layers for the enhancement of CdTe mini-modules perfor-mance, 2017 Solar Energy 141, pp. 242-248

2112. Genc, A., Patarroyo, J., Sancho-Parramon, J., (...), Puntes, V., Arbiol,J. Hollow metal nanostructures for enhanced plasmonics: Synthe-sis, local plasmonic properties and applications, 2017 Nanophoto-nics 6 (1), pp. 193-213

2111. Amutha, A., Amirthapandian, S., Sundaravel, B., (...), Saravanan, K.,Thangadurai, P. Low-temperature photoluminescence behaviour ofAg decorated ZnO Nanorods, 2016 Journal of Applied Physics 120(20), 205104

2110. Santos, JFL; Santos, MJL; Thesing, A; Tavares, F; Griep, J; Rodrigues,M.R.F. Localized surface plasmon ressonance applied to biosensorsand solar cells, 2016 Quimica Nova 39 (9), pp. 1098-1111

2109. Grygorchuk, N.I. Behaviour of a line of the surface plasmon reso-nance in metal nanoparticles, 2016 Metallo�zika i Noveishie Tekh-nologii 38 (6), pp. 717-735

2108. Santos, M; Gonzalez-Obeso, C; Orbanic, D; del Rio, EP; Arias, FJ Ad-vanced Systems for Controlled Drug Delivery from Chemically Mo-di�ed Elastin-like Recombinamers, CURRENT ORGANIC CHEMISTRY,21 (1):21-33; 2017

2107. Shahbazyan, T.V. Landau damping of surface plasmons in metalnanostructures, 2016 Physical Review B - Condensed Matter andMaterials Physics 94 (23), 235431

2106. Sandoval, A; Zanella, R; Klimova, TE Titania nanotubes decora-ted with anatase nanocrystals as support for active and stablegold catalysts for CO oxidation, CATALYSIS TODAY, 282 140-150;10.1016/j.cattod.2016.05.056 2 MAR 15 2017

2105. Chou Chau, Y.-F., Syu, J.-Y., Chao, C.-T.C., Chiang, H.-P., Lim, C.M.Design of crossing metallic metasurface arrays based on high sen-sitivity of gap enhancement and transmittance shi� for plasmonicsensing applications, 2017 Journal of Physics D: Applied Physics50 (4), 045105

2104. Piella, J., Bastus, N.G., Puntes, V. Modeling the Optical Responses ofNoble Metal Nanoparticles Subjected to Physicochemical Transfor-mations in Physiological Environments: Aggregation, Dissolutionand Oxidation, 2017 Zeitschri� fur Physikalische Chemie 231 (1),pp. 33-50

2103. Lakhotiya, H., Nazir, A., Madsen, S.P., (...), Larsen, A.N., Julsgaard,B. Plasmonically enhanced upconversion of 1500 nm light via tri-valent Er in a TiO2 matrix , 2016 Applied Physics Letters 109 (26),263102

2102. Yang, Y., Noviana, E., Nguyen, M.P., (...), Dandy, D.S., Henry,C.S. Paper-Based Micro�uidic Devices: Emerging Themes andApplications, 2017 Analytical Chemistry 89 (1), pp. 71-91

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1953. Gurunathan, S., Kalishwaralal, K., Vaidyanathan, R., Venkatara-man, D., Pandian, S.R.K., Muniyandi, J., Hariharan, N., Eom, S.H.Biosynthesis, puri�cation and characterization of silver nanoparti-cles using Escherichia coli, Colloids and Surfaces B: Biointerfaces74, 328 (2009)

1952. JIMENEZ VILLAR ERNESTO [ES]; ABDERRAFI KAMAL [ES]; ABARGUESLOPEZ RAFAEL [ES]; MARTINEZ PASTOR JUAN [ES]; VALDES NAVA-RRO JOSE LUIS [ES]; IBANEZ PUCHADES RAFAEL, METHOD FOR THESYNTHESIS OF INERT METAL NANOPARTICLES, Publication number:WO2009030799 (A1)Publication date: 2009-03-12, Patente.

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1948. Lee, G.P., Minett, A.I., Innis, P.C., Wallace, G.G. A new twist: Con-trolled shape-shi�ing of silver nanoparticles from prisms to discs,Journal of Materials Chemistry 19, 8294 (2009)

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1943. S Maiti, D Das, A Shome, P Kumar Das, In�uence of Gold Na-noparticles of Varying Size in Improving the Lipase Activity withinCationic Reverse Micelles, Chemistry - A European Journal 16, 1941(2010)

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1940. Y Marui, T Kida, M Akashi Facile Morphological Control of Cyclo-dextrin Nano- and Microstructures and Their Unique Organogela-tion Ability, Chem. Mater. 22, 282 (2010)

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1938. D Wrobel , A Dudkowiak, J Goc, Fluorescence Spectroscopy in Op-toelectronics, Photomedicine, and Investigation of BiomolecularSystems, Reviews in Fluorescence 2008 pp. 237-275 (Springer NewYork, 2010) DOI 10.1007/978-1-4419-1260-2

1937. W-S Liao, X Chen, T Yang, E T. Castellana, J Chen, P S. Cremer,Benchtop chemistry for the rapid prototyping of label-free biosen-sors: Transmission localized surface plasmon resonance platforms,Biointerphases 4, 80 (2009)

1936. Gu, XH; Cong, X; Ding, Y Platinum-Decorated Au Porous Nanotu-bes as Highly E�cient Catalysts for Formic Acid Electro-Oxidation,CHEMPHYSCHEM 11 (4): 841-846 MAR 5 2010


1934. Liu, P; Cui, H; Wang, CX; Yang, GW From nanocrystal synthesis tofunctional nanostructure fabrication: laser ablation in liquid, PHY-SICAL CHEMISTRY CHEMICAL PHYSICS 12 (16): 3942-3952 2010

1933. Gentry, ST; Bezpalko, MW Surface Plasmon Response for Anisotro-pic Silver Particles with Dimensions Below the Electrostatic Limit,JOURNAL OF PHYSICAL CHEMISTRY C 114 (15): 6989-6993 APR 222010

1932. Surovtsev, N.V., Adichtchev, S.V., Duda, T.A., Pokrovsky, L.D., Svesh-nikova, L.L. New surface-enhanced raman scattering active subs-trate fabricated by use of the langmuir-blodgett technique, Journalof Physical Chemistry C 114 (11), pp. 4803 (2010)

1931. Aherne, D., Gara, M., Kelly, J.M., Gun’Ko, Y.K. From ag nanoprismsto triangular auag nanoboxes, Advanced Functional Materials 20(8), pp. 1329-1338 (2010)

1930. Yoon, W.-J., Jung, K.-Y., Liu, J., Duraisamy, T., Revur, R., Teixei-ra, F.L., Sengupta, S., Berger, P.R. E�cient poly(3-hexylthiophene)-fullerene derivative bulk heterojunction photovoltaic devices usingunique self-assembled layer of Ag nanoparticles with controllableparticle-to-particle spacing, 2009 Conference Record of the IEEEPhotovoltaic Specialists Conference , art. no. 5411730, pp. 000081.


1928. Borensztein Y, Delannoy L, Djedidi A, et al. Monitoring of the Plas-mon Resonance of Gold Nanoparticles in Au/TiO2 Catalyst underOxidative and Reducing Atmospheres, JOURNAL OF PHYSICAL CHE-MISTRY C 114, 9008 (2010).

1927. Liu Q, Lai LF, Huang HX, et al. High-yield Synthesis of BranchedGold Nanocrystals by a Sodium Diphenylamine-4-Sulfonate Re-duction Process in Polyethylene Glycol Aqueous Solution, CHINESEJOURNAL OF CHEMISTRY 28, 537 (2010)

1926. Chu WH, Chuang YJ, Liu CP, et al. Enhanced spontaneous light emis-sion by multiple surface plasmon coupling, OPTICS EXPRESS 18,9677 (2010)

1925. Shen, SF; Zhao, HW; Huang, CZ; Wu, LP Higher-Order StructuresAssembly of Gold Nanorods Caused by Captopril in High IonicStrength Solutions, JOURNAL OF BIOMEDICAL NANOTECHNOLOGY6 (1): 66-72 FEB 2010

1924. Chapman, J.; Weir, E.; Regan, F. Period four metal nanoparticles onthe inhibition of biofouling, Colloids and Surfaces B: Biointerfaces,78 (2), p.208-216, Jul 2010

1923. Peh, C.K.N.; KE, L.; Ho, G.W. Modi�cation of ZnO nanorods throughAu nanoparticles surface coating for dye-sensitized solar cells ap-plications, Materials Letters, 64 (12), p.1372-1375, Jun 2010

1922. Yurkin, MA; de Kanter, D; Hoekstra, AG Accuracy of the discretedipole approximation for simulation of optical properties of goldnanoparticles, JOURNAL OF NANOPHOTONICS 4: Art. No. 041585FEB 5 2010

1921. Dubey, S.P., Lahtinen, M., Sillanpaa, M Green synthesis and cha-racterizations of silver and gold nanoparticles using leaf extract ofRosa rugosa, 2010 Colloids and Surfaces A: Physicochemical andEngineering Aspects 364 (1-3), pp. 34-41

1920. Chong, Y.Y., Coh, W.B., Tan, S.T., Fan, W.Y. Catalytic rate enhan-cement observed for alkyne hydrocarboxylation using rutheniumcarbonyl-capped nanostructures, 2010, Journal of Colloid and In-terface Science 348 (2), pp. 559-564

1919. Zhang, WC; Wu, XL; Kan, CX; Pan, FM; Chen, HT; Zhu, J; Chu, PKSurface-enhanced Raman scattering from silver nanostructureswith di�erent morphologies, APPLIED PHYSICS A-MATERIALS SCIEN-CE & PROCESSING 100 (1): 83-88 JUL 2010

1918. Kumar, CG; Mamidyala, SK; Das, B; Sridhar, B; Devi, GS; Karu-na, MS Synthesis of Biosurfactant-Based Silver Nanoparticles withPuri�ed Rhamnolipids Isolated from Pseudomonas aeruginosa BS-161R, JOURNAL OF MICROBIOLOGY AND BIOTECHNOLOGY 20 (7):1061-1068 JUL 2010

1917. Bawaskar, M; Gaikwad, S; Ingle, A; Rathod, D; Gade, A; Duran,N; Marcato, PD; Rai, M A New Report on Mycosynthesis of SilverNanoparticles by Fusarium culmorum, CURRENT NANOSCIENCE 6(4): 376-380 AUG 2010

1916. Chen, B; Jiao, XL; Chen, DR Size-Controlled and Size-DesignedSynthesis of Nano/Submicrometer Ag Particles, CRYSTAL GROWTH& DESIGN 10 (8): 3378-3386 AUG 2010

1915. Kar, T; Dutta, S; Das, PK, pH-Triggered conversion of so�nanocomposites: in situ synthesized AuNP-hydrogel to AuNP-organogel,SOFT MATTER 6 (19): 4777-4787 2010

1914. Jaidev, L.R., Narasimha, G. Fungal mediated biosynthesis of silvernanoparticles, characterization and antimicrobial activity, (2010)Colloids and Surfaces B: Biointerfaces, 81 (2) pp. 430-433.

1913. Sifontes, AB; Melo, L; Maza, C; Mendes, JJ; Mediavilla, M; Brito,JL; Zoltan, T; Albornoz, A PREPARATION OF SILVER NANOPARTICLESIN THE ABSENCE OF POLYMER STABILIZERS QUIMICA NOVA 33 (6):1266-1269 2010

1912. Lee, GP; Bignell, LJ; Romeo, TC; Razal, JM; Shepherd, RL; Chen, J;Minett, AI; Innis, PC; Wallace, GG The citrate-mediated shape evolu-tion of transforming photomorphic silver nanoparticles, CHEMICALCOMMUNICATIONS 46 (41): 7807-7809 2010


1911. L.-C. Chen, C.-W. Wei, J. S. Souris, S.-H. Cheng, C.-T. Chen, C.-S.Yang, P.-C. Li, and L.-W. Lo Enhanced photoacoustic stability ofgold nanorods by silica matrix con�nement, J. Biomed. Opt. 15,016010 (2010)

1910. Tiano, A.L., Koenigsmann, C., Santulli, A.C., Wong, S.S. Solution-based synthetic strategies for one-dimensional metal-containingnanostructures, (2010) Chemical Communications, 46 (43) pp.8093-8130.

1909. Kuo, CW; Wang, CRC Absorption Spectral Simulation of the End-to-End Linked Gold Nanorods Chain Structure, CURRENT NANOSCIEN-CE 6 (6): 619-625 DEC 2010

1908. Kannan, P.; Sampath, S.; John, S.A.; Direct Growth of Gold Nanorodson Gold and Indium Tin Oxide Surfaces: Spectral, Electrochemical,and Electrocatalytic Studies, JOURNAL OF PHYSICAL CHEMISTRY C114 (49): 21114-21122 DEC 16 2010

1907. Logsdail, AJ; Cookson, NJ; Horswell, SL; Wang, ZW; Li, ZY; Johnston,RL Theoretical and Experimental Studies of the Optical Propertiesof Conjoined Gold-Palladium Nanospheres, JOURNAL OF PHYSICALCHEMISTRY C 114 (49): 21247-21251 DEC 16 2010

1906. Chen, B; Jiao, XL; Chen, DR Fabrication of hollow cubic Ag micro-boxes with net-like nano�ber structures and their surface plasmonresonance, CRYSTENGCOMM 13 (1): 204-211 2011

1905. Zhang, D; Liu, X; Wang, X Synthesis of single-crystal silver sliceswith predominant (111) facet and their SERS e�ect, Journal of Mo-lecular Structure, 985 (1), p.82, Jan 2011

1904. Peng, H.-I., Miller, B.L. Recent advancements in optical DNA bio-sensors: Exploiting the plasmonic e�ects of metal nanoparticles,(2011) Analyst, 136 (3) pp. 436-447.

1903. Xiong, Y. Morphological changes in Ag nanocrystals triggered bycitrate photoreduction and governed by oxidative etching, (2011)Chemical Communications, 47 (5) pp. 1580-1582.

1902. Yang, P., Portales, H., Pileni, M.-P. Dependence of the localized sur-face plasmon resonance of noble metal quasispherical nanopar-ticles on their crystallinity-related morphologies, (2011) Journal ofChemical Physics, 134 (2), art. no. 024507

1901. J L Elechiguerra, J L Burt, J R Morones, A Camacho-Bragado, XGao, et al. Interaction of silver nanoparticles with HIV-1, Journal ofNanobiotechnology, 2005, Volume 3, Number 1, Pages 1-10

1900. Zeng, J., Tao, J., Li, W., Grant, J., Wang, P., Zhu, Y., Xia, Y. A mecha-nistic study on the formation of silver nanoplates in the presenceof silver seeds and citric acid or citrate ions, (2011) Chemistry - AnAsian Journal, 6 (2) pp. 376-379.

1899. Wang, L., Wu, X., Pei, M., Wu, Z., Li, X., Tao, X. Facile synthesisof multi-branched gold nanostructures through a TBAB-assistedroute in aqueous solution and their SERS property, (2011) ChineseJournal of Chemistry, 29 (1) pp. 185-190.

1898. Valamanesh, M; Borensztein, Y; Langlois, C; Lacaze, E SubstrateE�ect on the Plasmon Resonance of Supported Flat Silver Nano-particles, JOURNAL OF PHYSICAL CHEMISTRY C 115 (7): 2914-2922FEB 24 2011

1897. Graf, P; Mantion, A; Haase, A; Thunemann, AF; Masic, A; Meier,W; Luch, A; Taubert, A, Silici�cation of Peptide-Coated SilverNanoparticles-A Biomimetic So� Chemistry Approach toward Chi-ral Hybrid Core-Shell Materials, ACS NANO 5 (2): 820-833 FEB2011

1896. Tassadit, A., Macıas, D., Sanchez-Gil, J.A., Adam, P.-M., Rodriguez-Oliveros, R. Metal nanostars: Stochastic optimization of resonantscattering properties, (2011) Superlattices and Microstructures, 49(3) pp. 288-293.

1895. Ahamad, N; Ianoul, A Using Phospholipids To Control InterparticleDistance in SERS-Active Substrates, JOURNAL OF PHYSICAL CHE-MISTRY C 115 (9): 3587-3594 MAR 10 2011



1892. Zhou Fei , Liu Ye and Li Zhi-Yuan Simultaneous low extinction andhigh local �eld enhancement in Ag nanocubes, 2011 Chinese Phys.B 20 037303

1891. Ramgopal, M., Ch. Saisushma, I.H. Attitalla and A.M. Alhasin. Afacile green synthesis of silver nanoparticles using soap nuts, Res.J. Microbiol., 6: 432-438 2011 DOI: 10.3923/jm.2011.432.438

1890. Zhao, W., Zhao, X.-P. Preparation and properties of silver dendriticnanostructures array, 2010 Gongneng Cailiao/Journal of Functio-nal Materials 41 (12), pp. 2157-2160

1889. Chang, SJ; Chen, K; Hua, Q; Ma, YS; Huang, WX Evidence for theGrowth Mechanisms of Silver Nanocubes and Nanowires, JOURNALOF PHYSICAL CHEMISTRY C 115 (16): 7979-7986 APR 28 2011

1888. Liu, K; Feng, QM; Ou, LM; Zhang, GF; Lu, YP Simulation on SurfacePlasmon Resonance Properties of Quasi-One-Dimensional SilverNanoparticles in the Range of VIS-NIR, PROCEEDINGS OF THE 7THNATIONAL CONFERENCE ON CHINESE FUNCTIONAL MATERIALS ANDAPPLICATIONS (2010), VOLS 1-3 : 1503-1507 2010

1887. Brahma, R., Krishna, M.G. Optical behavior of silver/dielectric andgold/dielectric bilayer thin �lms, 2011 Physica E: Low-DimensionalSystems and Nanostructures 43 (6), pp. 1192-1198

1886. Barshilia, H.C., Kumar, P., Rajam, K.S., Biswas, A. Structure and op-tical properties of AgAl2O3 nanocermet solar selective coatingsprepared using unbalanced magnetron sputtering, 2011 SolarEnergy Materials and Solar Cells 95 (7), pp. 1707-1715

1885. Ananth, A.N., Daniel, S.C.G.K., Sironmani, T.A., Umapathi, S. PVAand BSA stabilized silver nanoparticles based surface-enhancedplasmon resonance probes for protein detection, 2011 Colloids andSurfaces B: Biointerfaces 85 (2), pp. 138-144

1884. Sadeghi, S.M. Plasmonic metaresonance nanosensors: Ultrasensi-tive tunable optical sensors based on nanoparticle molecules, 2011IEEE Transactions on Nanotechnology 10 (3), art. no. 5483207, pp.566-571

1883. Lah, NAC; Johan, MR Facile shape control synthesis and optical pro-perties of silver nanoparticles stabilized by Daxad 19 surfactant,APPLIED SURFACE SCIENCE 257 (17): 7494-7500 JUN 15 2011

1882. Kooij, ES; Ahmed, W; Zandvliet, HJW; Poelsema, B Localized Plas-mons in Noble Metal Nanospheroids, JOURNAL OF PHYSICAL CHE-MISTRY C 115 (21): 10321-10332 JUN 2 2011

1881. Zhao, W., Zhao, X.-P. Relationship of surface plasmon polaritonsand nanoparticles morphology, 2011 Guangzi Xuebao/Acta Photo-nica Sinica 40 (4), pp. 556-560

1880. Devi, DK; Pratap, SV; Haritha, R; Sivudu, KS; Radhika, P; Sreedhar,B Gum Acacia as a Facile Reducing, Stabilizing, and TemplatingAgent for Palladium Nanoparticles, JOURNAL OF APPLIED POLYMERSCIENCE 121 (3): 1765-1773 AUG 5 2011

1879. Kang, JH; Guo, YP; Chen, Y; Wang, ZC Preparation and UV-lightAbsorption Property of Oleic Acid Surface Modi�ed ZnO Nano-particles, CHEMICAL RESEARCH IN CHINESE UNIVERSITIES 27 (3):500-502 MAY 2011

1878. Mori, Y; Tagawa, T; Fujita, M; Kuno, T; Suzuki, S; Matsui, T; Ishiha-ra, M Simple and environmentally friendly preparation and sizecontrol of silver nanoparticles using an inhomogeneous systemwith silver-containing glass powder, JOURNAL OF NANOPARTICLERESEARCH 13 (7): 2799-2806 JUL 2011


1877. Mendoza-Galvan, A., Jarrendahl, K., Dmitriev, A., Pakizeh, T., Kall,M., Arwin, H. Optical response of supported gold nanodisks, 2011Optics Express 19 (13), pp. 12093-12107

1876. Kansal, S.K., Ali, A.H., Kapoor, S., Bahnemann, D.W. Synthesis of�ower like zinc oxide nanostructure and its application as a pho-tocatalyst, 2011 Separation and Puri�cation Technology 80 (1), pp.125-130

1875. Lin, HZ; Ohta, T; Paul, A; Hutchison, JA; Demid, K; Lebedev, O; VanTendeloo, G; Hofkens, J; Uji-i, H Light-assisted nucleation of silvernanowires during polyol synthesis, JOURNAL OF PHOTOCHEMISTRYAND PHOTOBIOLOGY A-CHEMISTRY 221 (2-3): 220-223 SI 2011.

1874. Dong, JZ; Zhang, XL; Cao, YA; Yang, WS; Tian, JG Shape dependenceof nonlinear optical behaviors of gold nanoparticles, MATERIALSLETTERS 65 (17-18): 2665-2668 2011

1873. Albella, P; Saiz, JM; Gonzalez, F; Moreno, F Surface monitoring ba-sed on light scattering by metal nanosensors, JOURNAL OF QUAN-TITATIVE SPECTROSCOPY & RADIATIVE TRANSFER 112 (13): 2046-2058 SI 2011

1872. Chen, CC; Yu, BH; Liu, P; Liu, JF; Wang, L Investigation of nano-sizedZnO particles fabricated by various synthesis routes, JOURNAL OFCERAMIC PROCESSING RESEARCH 12 (4): 420-425 AUG 2011

1871. Wang, G.-H., Zhu, JJ; Kan, CX; Wan, JG; Han, M; Wang, GH High-Yield Synthesis of Uniform Ag Nanowires with High Aspect Ratiosby Introducing the Long-Chain PVP in an Improved Polyol Process,JOURNAL OF NANOMATERIALS 10.1155/2011/982547 2011

1870. Mertens, S.F.L., Gara, M., Sologubenko, A.S., Mayer, J., Szidat, S.,Kramer, K.W., Jacob, T., Schi�rin, D.J, Wandlowski, T. Au/Hg nanoa-lloy formation through direct amalgamation: Structural, spectros-copic, and computational evidence for slow nanoscale di�usion,Advanced Functional Materials 21 (17), pp. 3259-3267 2011

1869. Keerthi Devi, D., Veera Pratap, S., Haritha, R., Samba Sivudu, K.,Radhika, P., Sreedhar, B. Gum acacia as a facile reducing, stabi-lizing, and templating agent for palladium nanoparticles, Journalof Applied Polymer Science 121 (3), pp. 1765-1773 2011

1868. Jia, Z., The controlled synthesis of single-crystalline Cd(OH)2 na-noparticles with di�erent morphologies, Advanced Materials Re-search 295-297, pp. 808-812 2011

1867. Mojahed, F., Dehghanpour, S., Alizadeh, M., Mahmoudi, A. Wet che-mical synthesis of oleylamine-capped silver nanoparticles by afast and facile reproducible method, Synthesis and Reactivity inInorganic, Metal-Organic and Nano-Metal Chemistry 41 (6), pp.664-670 2011

1866. K.S.V. Krishna Rao, P. Ramasubba Reddy, Yong-Ill Lee, ChangdaeKim Synthesis and characterization of chitosan–PEG–Ag nano-composites for antimicrobial application, Carbohydrate Polymers,Volume 87, Issue 1, 4 January 2012, Pages 920-925

1865. Mdluli, P.S., Sosibo, N.M., Mashazi, P.N., Nyokong, T., Tshikhudo,R.T., Skepu, A., Van Der Lingen, E. Selective adsorption of PVP onthe surface of silver nanoparticles: A molecular dynamics study,Journal of Molecular Structure 1004 (1-3), pp. 131-137 2011

1864. Rajabi, O; Bazzaz, BSF; Vaseghi, AR; Salari, R Standardizing theBactericidal Activities of Silver Nanoparticles Made By Electroche-mical Reduction and Comparing It with Deconex 53 Instrument,IRANIAN JOURNAL OF PHARMACEUTICAL RESEARCH 10 (3): 481-487SEP 2011

1863. Gao, JJ; Qu, RJ; Tang, B; Wang, CH; Ma, QL; Sun, CM Control ofthe aggregation behavior of silver nanoparticles in polyurethanematrix, JOURNAL OF NANOPARTICLE RESEARCH 13 (10): 5289-52992011

1862. Chen, DP; Zhu, G; Zhu, XG; Qiao, XL; Chen, JG Controlled synthe-sis of monodisperse silver nanocubes via a solvothermal method,JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS 22(12): 1788-1795 (2011)

1861. Sangeetha, G., Rajeshwari, S., Venckatesh, R. Green synthesis ofzinc oxide nanoparticles by aloe barbadensis miller leaf extract:Structure and optical properties, 2011 Materials Research Bulletin46 (12), pp. 2560-2566

1860. Allagui, A., Wuthrich, R. The electrochemical discharges for thesynthesis of nickel oxide nanoparticles: Characterization and me-chanism, 2011 Electrochimica Acta 58 (1), pp. 12-18

1859. Kanchana, A., Agarwal, I., Sunkar, S., Nellore, J., Namasivayam, K.Biogenic silver nanoparticles from Spinacia oleracea and Lactucasativa and their potential antimicrobial activity, 2011 Digest Journalof Nanomaterials and Biostructures 6 (4), pp. 1741-1750

1858. Barjasteh-Moghaddam, M., Habibi-Yangjeh, A. Preparation of Zn1-xMnxO nanoparticles by a simple ”green”method and photoca-talytic activity under visible light irradiation, 2011 InternationalJournal of Materials Research 102 (11), pp. 1397-1402

1857. Mantion, A; Graf, P; Florea, I; Haase, A; Thunemann, AF; Masic,A; Ersen, O; Rabu, P; Meier, W; Luch, A; Taubert, A Biomimeticsynthesis of chiral erbium-doped silver/peptide/silica core-shellnanoparticles (ESPN), NANOSCALE, 3 (12):5168-5179; 2011

1856. Kida, T Formation and Function of Nano- and Microstructuresby the Self-assembly of Cyclic Oligosaccharides Cyclodextrins,TRENDS IN GLYCOSCIENCE AND GLYCOTECHNOLOGY, 23 (130):67-78; MAR 2011

1855. Gouda, M. Nano-zirconium oxide and nano-silver oxide/cottongauze fabrics for antimicrobial and wound healing acceleration,2012, Journal of Industrial Textiles 41 (3) , pp. 222-240

1854. Grillet, N., Manchon, D., Bertorelle, F., Bonnet, C., Broyer, M., Cot-tancin, E., Lerme, J., (...), Pellarin, M. Plasmon coupling in silvernanocube dimers: Resonance splitting induced by edge rounding,2011 ACS Nano 5 (12) , pp. 9450-9462

1853. Evlyukhin, AB; Reinhardt, C; Chichkov, BN Multipole light scatte-ring by nonspherical nanoparticles in the discrete dipole approxi-mation, PHYSICAL REVIEW B, 84 (23):10.1103/PhysRevB.84.235429DEC 20 2011

1852. Kumar, A., Mazinder Boruah, B., Liang, X.-J. Gold nanoparticles:Promising nanomaterials for the diagnosis of cancer and HIV/AIDS,2011 Journal of Nanomaterials 2011 , art. no. 202187

1851. Guzman, M; Dille, J; Godet, S Synthesis and antibacterial activityof silver nanoparticles against gram-positive and gram-negativebacteria, NANOMEDICINE-NANOTECHNOLOGY BIOLOGY AND ME-DICINE, 8 (1):37-45; 10.1016/j.nano.2011.05.007 JAN 2012

1850. Shao, G.-X., Liang, J., Li, T.-B., Liu, H.-R., Zhao, J.-F., Xu, B.-S. E�ectsof sulfur ion on morphology and optical properties of silver nano-products, 2012 Chinese Journal of Inorganic Chemistry 28 (1) , pp.55-61

1849. Anandhavelu, S; Thambidurai, S E�ect of zinc chloride and sodiumhydroxide concentration on the optical property of chitosan-ZnOnano structure prepared in chitin deacetylation, MATERIALS CHE-MISTRY AND PHYSICS, 131 (1-2):449-454 (2011)

1848. Ahamad, N., Bottomley, A., Ianoul, A.Optimizing refractive indexsensitivity of supported silver nanocube monolayers, Journal ofPhysical Chemistry C 116 (1) , pp. 185-192 2012

1847. Alsawa�a, M., Wahbeh, M., Truong, V.-V. Simulated optical proper-ties of gold nanocubes and nanobars by discrete dipole approxi-mation, (2012) Journal of Nanomaterials, 2012, art. no. 283230

1846. Xia, X., Zeng, J., Oetjen, L.K., Li, Q., Xia, Y. Quantitative analy-sis of the role played by poly(vinylpyrrolidone) in seed-mediatedgrowth of Ag nanocrystals, (2012) Journal of the American Chemi-cal Society, 134 (3) pp. 1793-1801.


1845. Nellore, J., Pauline, P.C., Amarnath, K. Biogenic synthesis by sp-hearanthus amaranthoids; towards the e�cient production of thebiocompatible gold nanoparticles, Digest Journal of Nanomate-rials and Biostructures 7 (1) , pp. 123-133 2012

1844. Pan�lova, E., Shirokov, A., Khlebtsov, B., Matora, L., Khlebtsov, N.Multiplexed dot immunoassay using Ag nanocubes, Au/Ag alloynanoparticles, and Au/Ag nanocages, Nano Research 5 (2) , pp.124-134 2012

1843. Angelidou, M., Pitris, C. Investigation of nanostructure scatteringand absorption for combined optical diagnostic and therapeuticapplications, Progress in Biomedical Optics and Imaging - Procee-dings of SPIE 8231 , art. no. 823108, 2012

1842. Chen, R., Li, D., Hu, H., Zhao, Y., Wang, Y., Wong, N., Wang, S., (...),Xiong, Q. Tailoring optical properties of silicon nanowires by aunanostructure decorations: Enhanced Raman scattering and pho-todetection, Journal of Physical Chemistry C 116 (7) , pp. 4416-4422,2012

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1839. Barshilia, H.C., Tanwer, A., Siju, Mahadik, D.B., Rao, A.V. Designof Ag-Si 3N 4 nanocermet coatings for photothermal conversionapplications, (2012) Nanoscience and Nanotechnology Letters, 4(1) pp. 41-47.

1838. Arjunan, NK; Murugan, K; Rejeeth, C; Madhiyazhagan, P; Barnard,DR Green Synthesis of Silver Nanoparticles for the Control of Mos-quito Vectors of Malaria, Filariasis, and Dengue, VECTOR-BORNEAND ZOONOTIC DISEASES, 12 (3):262-268; 10.1089/vbz. 2011.0661MAR 2012

1837. Shao, GX; Liang, J; Li, TB; Zhao, JF; Xu, BS E�ects of Sulfur Ion onMorphology and Optical Properties of Silver Nano-Products, CHI-NESE JOURNAL OF INORGANIC CHEMISTRY, 28 (1):55-61; JAN 2012

1836. Ankamwar, B., Mandal, G., Sur, U.K., Ganguly, T. An e�ective bioge-nic protocol for room temperature one step synthesis of defectivenanocrystalline silver nanobuns using leaf extract, 2012 DigestJournal of Nanomaterials and Biostructures 7 (2) , pp. 599-605

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1834. Prakasham, RS; Kumar, BS; Kumar, YS; Shankar, GG Characteriza-tion of Silver Nanoparticles Synthesized by Using Marine IsolateStreptomyces albido�avus, JOURNAL OF MICROBIOLOGY AND BIO-TECHNOLOGY, 22 (5):614-621; 10.4014/jmb.1107.07013 MAY 2012

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1825. Ding, XL; Kan, CX; Mo, B; Ke, SL; Cong, B; Xu, LH; Zhu, JJ Synt-hesis of polyhedral Ag nanostructures by a PVP-assisted hy-drothermal method, JOURNAL OF NANOPARTICLE RESEARCH, 14(8):10.1007/s11051-012-1000-8 AUG 2012

1824. Kumar, CG; Mamidyala, SK; Reddy, MN; Reddy, BVS Silver glyco-nanoparticles functionalized with sugars of sweet sorghum syrupas an antimicrobial agent, PROCESS BIOCHEMISTRY, 47 (10):1488-1495; 10.1016/j.procbio.2012.05.023 OCT 2012

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1808. De Matos, R.A., Da Silva Cordeiro, T., Samad, R.E., Vieira Jr., N.D.,Courrol, L.C. 3 of di�erent sizes and shapes using agar-agar watersolution and femtosecond pulse laser irradiation, (2012) AppliedPhysics A: Materials Science and Processing, 109 (3) pp. 737-741

1807. Podivilov, EV; Sturman, BI; Gorkunov, MV Plasmonic resonances ofnanowires with periodically corrugated cross sections, JOURNALOF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHYSICS, 29(12):3248-3253; DEC 2012

1806. Velumani, S; Devi, S; Priyadarshni, P; Jeyapaul, J Analysis of Anti-microbial Activity of Silver Nanoparticles Synthesized by Klebsiellapneumoniae and Staphylococcus aureus against Food Borne Pat-hogens, Journal of Pure and Applied Microbiology, 6 (3):1227-1234;2012

1805. Artemyev, M., Krutokhvostov, R., Melnikau, D., Oleinikov, V., Sukha-nova, A., Nabiev, I. Low-�eld magnetic circular dichroism in silverand gold colloidal nanoparticles of di�erent sizes, shapes, andaggregation states, 2012, Proceedings of SPIE - The InternationalSociety for Optical Engineering 8457 , art. no. 845729

1804. Sujarania, S; Sironmani, TA; Ramu, A Synthesis, charac-terization and toxicity studies os schi� bases [2-(2, 2-diphenylethylimino)methyl)phenols] anchored silver nanoparti-cles, Digest J Nanomaterials & Biostructures 7 (4):1843-1857 (2012)

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1801. Zhu, J; Ren, YJ Negative curvature dependent plasmonic couplingand local �eld enhancement of crescent silver nanostructure, JNanopart Res 14 (12):10.1007/s11051-012-1326-2, 2012

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1798. Wang, S; Li, C; Murase, N Synthesis of Highly Lumines-cent CdTe0.5S0.5/CdxZn1-xS Core/Shell Quantum Dots, AdvancedScience, Engineering and Medicine, Volume 5, Number 1, January2013 , pp. 23-36(14)

1797. A. M. Bratkovsky Nanoscale Applications for Information andEnergy Systems, Nanostructure Science and Technology 2013, pp1-40, Plasmonic Devices for Fast Optoelectronics and EnhancedRaman Sensors, DOI:10.1007/978-1-4614-5016-0-1

1796. S Gunalan, R Sivaraj, V Rajendran, Green synthesized ZnO nano-particles against bacterial and fungal pathogens, Progress in Natu-ral Science: Materials International, Volume 22, Issue 6, December2012, Pages 695-702, ISSN 1002-0071, 10.1016/j.pnsc.2012.11.015.

1795. S Roy, T Mukherjee, S Chakrabort, TK Das Biosynthesis, charac-terization & antifungal activity of silver nanoparticles synthesizedby the fungus aspergillus foetidus MTCC8876, Digest Journal ofNanomaterials and Biostructures Vol. 8, No. 1, January - March2013, p. 197 - 205

1794. A. Garcia-Valenzuela, E. Haro-Poniatowski, J. Toudert, R. Serna Evo-lution of the optical re�ectivity of a monolayer of nanoparticlesduring its growth on a dielectric thin �lm, Applied Physics A 110,pp 757-764 (2013)

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1792. A Alshammari, A Kockritz, V N Kalevaru, A Bagabas, A Martin In-�uence of Single Use and Combination of Reductants on the Size,Morphology and Growth Steps of Gold Nanoparticles in Colloi-dal Mixture, Open Journal of Physical Chemistry, 2012, 2, 252-261doi:10.4236/ojpc.2012.24033 Published Online November 2012

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1786. Stacy, Bradley M. Controlled Synthesis of Gold Nanorods with Var-ying Aspect Ratios and Their Biological Applications, Master ofScience (M.S.), University of Dayton, Chemical Engineering, 2012.

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1783. P Dwivedi, S.S. Narvi, R.P. Tewari Potentiality of the plantPseudotsuga menzietii to combat implant related infectionin the nanoregime, International Journal of Biomedical Na-noscience and Nanotechnology, Volume 2, 187- 206, 2012,DOI:10.1504/IJBNN.2012.051217

1782. Alsawa�a, Mohammed (2012) Optical properties of metallic nano-particles and metallic nanocomposite materials PhD thesis, Con-cordia University.

1781. F. Abdi, A. Siabi-Gerjan, and H. Savaloni On the discrete dipoleapproximation investigation of the extinction spectra of ag/glassnano-�ower thin �lm with threefold symmetry, Journal of Theore-tical and Applied Physics 6(1), 2012.

1780. P. E. Cardoso-Avila, J. L. Pichardo-Molina, K. U. Kumar, and J. A.Arenas-Alatorre Temperature and amino acid-assisted size- andmorphology-controlled photochemical synthesis of silver decahe-dral nanoparticles, Journal of Experimental Nanoscience, pages1–13, 2013/01/31 2012.

1779. V. Gopinath, P. Velusamy, Extracellular biosynthesis of silver nano-particles using Bacillus sp. GP-23 and evaluation of their antifungalactivity towards Fusarium oxysporum, Spectrochimica Acta PartA: Molecular and Biomolecular Spectroscopy, Volume 106, April2013, Pages 170-174, ISSN 1386-1425, 10.1016/j.saa.2012.12.087.

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1777. Naghsh, N., Amirkhani Dehkordi, Z., Aghababa, H. E�ects of SilverNanoparticles Contact with Skin in HGB and MCH Changes in Ma-le Rats in In Vivo Condition, Journal of Mazandaran University ofMedical Sciences, 23(98), 11-17 (2013).

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1774. Mori, Y; Ono, T; Miyahira, Y; Nguyen, VQ; Matsui, T; Ishihara, M An-tiviral activity of silver nanoparticle/chitosan composites againstH1N1 in�uenza A virus, Nanoscale Res. Letts., 8 10.1186/1556-276X-8-93 FEB 20 2013

1773. Lee, H., Park, S.H., Jung, S.-C., Yun, J.-J., Kim, S.-J., Kim, D.-H. Prepa-ration of nonaggregated silver nanoparticles by the liquid phaseplasma reduction method, 2013, J. Materials Research 28 (8) , pp.1105-1110

1772. Bulou, H., Scheurer, F., Goyhenex, C., Speisser, V., Romeo, M., Ca-rriere, B., Moreau, N., (...), Ohresser, P. Thermodynamics versuskinetics in a morphology transition of nanoparticles, 2013, Phys.Rev. B - 87 (15) , art. no. 155404

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1770. Y.-W. Ma, Z.-W. Wu, L.-H. Zhang, J. Zhang, G.-S. Jian, and S. Pan.Theoretical study of the local surface plasmon resonance proper-ties of silver nanosphere clusters,Plasmonics 8 (3), pp. 1351-1360,2013.

1769. Debaleena Bhattacharjee , Subrata Dasgupta & Sibdas Band-yopadhyay (2013): Rectangular Palladium Nanoparticles (RNPs):Synthesis, Characterization and Mechanistic Studies, Synthesis andReactivity in Inorganic, Metal- Organic, and Nano-Metal Che-mistry, DOI:10.1080/15533174.2012.760160

1768. El-Dessouky, R; Georges, M; Azzazy, HME Silver Nanostructures:Properties, Synthesis, and Biosensor Applications, Editor(s): HepelM; Zhong CJ, en FUNCTIONAL NANOPARTICLES FOR BIOANALYSIS,NANOMEDICINE, AND BIOELECTRONIC DEVICES, VOL 1, 1112 359-404; 2012, ACS Symposium Series

1767. Singh, A; Chernenko, T; Amiji, M Theranostic Applications of Plas-monic Nanosystems, Editor(s): Hepel M; Zhong CJ en FUNCTIONALNANOPARTICLES FOR BIOANALYSIS, NANOMEDICINE, AND BIOELEC-TRONIC DEVICES, VOL 2, 1113 383-413; 2012, ACS Symposium Se-ries

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1763. Roy, S., Das, T.K., Synthesis and standardization of biologicallysynthesized silver nanoparticles, 2013, AIP Conference Procee-dings 1536 , pp. 39-40

1762. Hu, PP; Zheng, LL; Zhan, L; Li, JY; Zhen, SJ; Liu, H; Luo, LF; Xiao,GF; Huang, CZ Metal-enhanced �uorescence of nano-core-shellstructure used for sensitive detection of prion protein with a dual-aptamer strategy, 2013, Analytica Chimica Acta 787 , pp. 239-245

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1759. Wu, R., Kong, Q.-C., Fu, C., Lai, S.-Q., Ye, C., Liu, J.-Y., Chen, Y., Hu,J.-Q. One-pot synthesis and enhanced catalytic performance ofPd and Pt nanocages via galvanic replacement reactions, 2013,RSC Advances 3 (31) , pp. 12577-12580

1758. Dandapat, A; Pramanik, S; Bysakh, S; De, G Boat-like Au na-noparticles embedded mesoporous gamma-Al2O3 �lms: an ef-�cient SERS substrate, JOURNAL OF NANOPARTICLE RESEARCH, 15(7):10.1007/s11051-013-1804-1 JUL 2013

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1756. Liu, P., Lin, X.Z., Yu, J.M., Yang, G.W. From nanocrystal synthesis tonanomanufacturing: Laser ablation in liquid (Chapter) 2012, LaserAblation in Liquids: Principles and Applications in the Preparationof Nanomaterials, 855-946, DOI: 10.4032/9789814241526

1755. Hung, L; Lee, SY; McGovern, O; Rabin, O; Mayergoyz, I Calcula-tion and measurement of radiation corrections for plasmon reso-nances in nanoparticles, PHYSICAL REVIEW B, 88 (7):10.1103/Phys-RevB.88.075424 AUG 19 2013

1754. Hartmann, T., Muhling, M., Wolf, A., Mariana, F., Maskow, T., Mer-tens, F., Neu, T.R., Lerchner, J. A chip-calorimetric approach to theanalysis of Ag nanoparticle caused inhibition and inactivation ofbeads-grown bacterial bio�lms, 2013, Journal of MicrobiologicalMethods 95 (2) , pp. 129-137


1753. Chernak, D.J., Sisco, P.N., Goldsmith, E.C., Baxter, S.C., Murphy, C.J.High-aspect-ratio gold nanorods: Their synthesis and applicationto image cell-induced strain �elds in collagen �lms, 2013, Methodsin Molecular Biology 1026 , pp. 1-20

1752. Lin, HY; Huang, PJ; Huang, CH; Wang, YC; Wang, CRC Synthesis andOptical Properties of Noble Metal Nanoparticles for Biodetection,Editor(s): Chau LK; Chang HT, FROM BIOIMAGING TO BIOSENSORS:NOBLE METAL NANOPARTICLES IN BIODETECTION, 1-10; 2013

1751. Linkov, P., Artemyev, M., E�mov, A.E., Nabiev, I. Comparative ad-vantages and limitations of the basic metrology methods appliedto the characterization of nanomaterials, 2013, Nanoscale 5 (19) ,pp. 8781-8798

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1749. Nguyen, VQ; Ishihara, M; Nakamura, S; Hattori, H; Ono, T; Mi-yahira, Y; Matsui, T Interaction of Silver Nanoparticles and ChitinPowder with Di�erent Sizes and Surface Structures: The Correla-tion with Antimicrobial Activities, JOURNAL OF NANOMATERIALS,art. no. 467534 10.1155/2013/467534 (2013)

1748. Hebeish, A., El-Ra�e, M.H., El-Sheikh, M.A., El-Naggar, M.E. Na-nostructural features of silver nanoparticles powder synthesizedthrough concurrent formation of the nanosized particles of bothstarch and silver, 2013, Journal of Nanotechnology 2013 , art. no.201057

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1746. Paira, M.K., Dutta, P., Mondal, T.K., Sinha, C. Syntheses, spec-tral characterizations, redox properties and DFT computations of[MH(CO)(PPh3)2(N-heterocycle Schi� bases)]+ (M = Ru and Os) andtheir applications to the synthesis of Ag nanoparticles, 2013, Jour-nal of the Indian Chemical Society 90 (4) , pp. 423-426

1745. Awasthi, KK; Awasthi, A; Kumar, N; Roy, P; Awasthi, K; John, PJ Sil-ver nanoparticle induced cytotoxicity, oxidative stress, and DNAdamage in CHO cells, JOURNAL OF NANOPARTICLE RESEARCH, 15(9):10.1007/s11051-013-1898-5 SEP 2013

1744. Kanmani, P., Rhim, J.-W. Physical, mechanical and antimicrobialproperties of gelatin based active nanocomposite �lms containingAgNPs and nanoclay, 2014, Food Hydrocolloids 35 , pp. 644-652

1743. Martiradonna, L., Shankar, S.S., Pompa, P.P. E-Beam Lithographyand Spontaneous Galvanic Displacement Reactions for SpatiallyControlled MEF Applications (Chapter), 2010, Metal-Enhanced Fluo-rescence

1742. Nguyen, VQ; Ishihara, M; Mori, Y; Nakamura, S; Kishimoto, S; Fuji-ta, M; Hattori, H; Kanatani, Y; Ono, T; Miyahira, Y; Matsui, T Prepa-ration of size-controlled silver nanoparticles and chitosan-basedcomposites and their anti-microbial activities, BIO-MEDICAL MA-TERIALS AND ENGINEERING, 23 (6):473-483; 10.3233/BME-1307722013

1741. Wei, Q., Wei, A. Signal Generation with Gold Nanoparti-cles: Photophysical Properties for Sensor and Imaging Appli-cations (Chapter ), 2010, The Supramolecular Chemistry ofOrganic-Inorganic Hybrid Materials, ISBN: 978-047037621-8, DOI:10.1002/9780470552704.ch10, John Wiley & Sons, Inc.

1740. Park, G., Seo, D., Chung, I.S., Song, H. Poly(ethylene glycol)- andcarboxylate-functionalized gold nanoparticles using polymer lin-kages: Single-step synthesis, high stability, and plasmonic detec-tion of proteins, 2013, Langmuir 29 (44) , pp. 13518-13526

1739. Jia, C., Yang, P., Zhang, A. Glycerol and ethylene glycol co-mediated synthesis of uniform multiple crystalline silver nanowi-res, 2014, Materials Chemistry and Physics 143 (2) , pp. 794-800

1738. Antony, A., Blackbeard, J., Angles, M., Leslie, G. Non-microbial indi-cators for monitoring virus removal by ultra�ltration membranes,2014, J Membrane Science 454 , pp. 193-199

1737. Sui, N., Monnier, V., Salvia, M.-V., Chevolot, Y., Souteyrand, E. Mag-netic and optical properties of Ag at SiO2-FITC-Fe 3O4 hybrid na-noparticles, 2014, Materials Science and Engineering B: Solid-StateMaterials for Advanced Technology 182 (1) , pp. 92-95

1736. El-Naggar, N.E.-A., Abdelwahed, N.A.M. Application of statisti-cal experimental design for optimization of silver nanoparticlesbiosynthesis by a nanofactory Streptomyces viridochromogenes,2014, J Microbiology 52 (1) , pp. 53-63

1735. Wang, Q; Yu, CX Chemical and Biological Sensing and ImagingUsing Plasmonic Nanoparticles and Nanostructures, Wang, Qi; Yu,Chenxu, Editor(s): Irudayaraj J, BIOMEDICAL NANOSENSORS, 3 59-96; 2013

1734. Zhang, D., Yang, H. Facile synthesis of anisotropic silver nano-particles and their surface-enhanced Raman scattering properties,2014, J Molecular Structure 1060 (1) , pp. 1-5

1733. Zhang, X.-Q., Yang, Z.-Y., Hu, A.-J., Wang, H.-C., Shen, Z.-Y. Ra-pid synthesis and characterization of silver nanowires with sin-gle crystal structure by chemical reduction induced by L-cysteine,2013, Gongneng Cailiao/Journal of Functional Materials 44 (21) ,pp. 3169-3173

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1731. Kalabegishvili, T; Murusidze, I; Kirkesali, E; Rcheulishvili, A; Gin-turi, E; Kuchava, N; Bagdavadze, N; Gelagutashvili, E; Frontasye-va, MV; Zinicovscaia, I; Pavlov, SS; Dmitriev, AY GOLD AND SILVERNANOPARTICLES IN Spirulina platensis BIOMASS FOR MEDICAL AP-PLICATION, ECOLOGICAL CHEMISTRY AND ENGINEERING S-CHEMIAI INZYNIERIA EKOLOGICZNA S, 20 (4):621-631; 10.2478/eces-2013-0043 2013

1730. Wang, BY; Qu, SL Absorption spectra and near-electric �eld en-hancement e�ects of Au- and Ag-Fe3O4 dimers, APPLIED SURFACESCIENCE, 292 1002-1008; 10.1016/j.apsusc.2013.12.103 FEB 15 2014

1729. Faucheaux, J.A.a, Fu, J.ad, Jain, P.K. Uni�ed theoretical frameworkfor realizing diverse regimes of strong coupling between plasmonsand electronic transitions, J Phys Chem C 118 (5), 2014, 2710-2717

1728. Venkatesan, K.R., Vajrai, R., Nithyadevi, M., Arun, K.P., Uma Mahes-wari, K., Brindha, P. Characterization and Antimicrobial e�ect ofsilver Nanoparticles Synthesized from Bacillus subtilis (MTCC 441),International Journal of Drug Development and Research 5 (4),2013, 187-193

1727. Lai, XD; Feng, XM; Zhang, MH; Hong, RJ; Chen, YX; Li, AQ; Deng,XL; Hu, JQ Large-scale synthesis and surface plasmon resonanceproperties of angled silver/silver homojunction nanowires, JOUR-NAL OF NANOPARTICLE RESEARCH, 16 (3):10.1007/s11051-014-2272-y FEB 5 2014

1726. Moharram, AH; Mansour, SA; Hussein, MA; Rashad, M Direct Preci-pitation and Characterization of ZnO Nanoparticles, JOURNAL OFNANOMATERIALS, 10.1155/2014/716210 2014

1725. Apalangya, V., Rangari, V., Tiimob, B., Jeelani, S., Samuel, T. De-velopment of antimicrobial water �ltration hybrid material frombio source calcium carbonate and silver nanoparticles, AppliedSurface Science, Volume 295, 15 March 2014, Pages 108-114


1724. Moharram, A.H., Mansour, S.A., Hussein, M.A., Rashad, M. Directprecipitation and characterization of ZnO nanoparticles, Journalof Nanomaterials, Volume 2014, 2014, Article number 716210

1723. Roy, S., Das, T.K. Biosynthesis of silver nanoparticles by asper-gillus foetidus: Optimization of physicochemical parameters, Na-noscience and Nanotechnology Letters 6 (3), March 2014, Pages181-189

1722. Suresh, G., Gunasekar, P.H., Kokila, D., Prabhu, D., Dinesh, D., Ra-vichandran, N., Ramesh, B., Koodalingam, A., Vijaiyan Siva, G.Green synthesis of silver nanoparticles using Delphinium denu-datum root extract exhibits antibacterial and mosquito larvicidalactivities, Spectrochimica Acta - Part A: Molecular and Biomolecu-lar Spectroscopy, Volume 127, 5 June 2014, Pages 61-66

1721. Jeeva, K; Thiyagarajan, M; Elangovan, V; Geetha, N; Venkatacha-lam, P Caesalpinia coriaria leaf extracts mediated biosynthesis ofmetallic silver nanoparticles and their antibacterial activity againstclinically isolated pathogens, INDUSTRIAL CROPS AND PRODUCTS,52 714-720; 10.1016/j.indcrop.2013.11.037 JAN 2014

1720. Xu, LH; Kan, CX; Wang, CS; Cong, B; Ni, Y; Shi, DN Synthesis of AgNanostructures with Controlled Shapes by a Polyvinylpyrrolidone-Assisted Hydrothermal Method, ACTA PHYSICO-CHIMICA SINICA, 30(3):569-575; 10.3866/PKU.WHXB201312253 FEB 2014

1719. Liu, S.-J. The plasmonic nanostructures applied in the photovoltaiccell, Advanced Materials Research Volume 893, 2014, Pages 186-189, 2013 3rd International Conference on Advanced Materials andEngineering Materials 2013, CAMEM 2013; Code 103207

1718. Sun, Y., Liu, H., Yang, L., Sun, B., Liu, J. Transformation of thio-lated chitosan-templated gold nanoparticles to huge microcubes,Materials Research Bulletin Volume 53, May 2014, Pages 89-95

1717. Xu, L.-H., Kan, C.-X., Wang, C.-S., Cong, B., Ni, Y., Shi, D.-N.Synthesis of ag nanostructures with controlled shapes by apolyvinylpyrrolidone-assisted hydrothermal method (2014) WuliHuaxue Xuebao/ Acta Physico - Chimica Sinica, 30 (3) pp. 569-575.

1716. Chen, D., Yin, L., Li, F., Zhu, G., Huang, Y., Wu, J. Facile fabricationof highly dispersed silver spheres with controllable sizes in thepresence of gelatin, (2014) Journal of Materials Science: Materialsin Electronics, 25 (5) pp. 2143-2148.

1715. Lokina, S., Suresh, R., Giribabu, K., Stephen, A., Lakshmi Sundaram,R., Narayanan, V. Spectroscopic investigations, antimicrobial, andcytotoxic activity of green synthesized gold nanoparticles, Spec-trochimica Acta - Part A: Molecular and Biomolecular SpectroscopyVolume 129, 14 August 2014, Pages 484-490

1714. Lee, K., Hahn, R., Schmuki, P. Photocatalytic H2 production on self-decorated Au nanoparticles/TiO2 nanotubes under visible light,Electrochemistry Communications Volume 43, June 2014, Pages105-108

1713. El-Naggar, N.E.-A., Abdelwahed, N.A.M., Darwesh, O.M.M. Fabrica-tion of biogenic antimicrobial silver nanoparticles by Streptomy-ces aegyptia NEAE 102 as eco-friendly nanofactory, Journal ofMicrobiology and Biotechnology Volume 24, Issue 4, 2014, Pages453-464

1712. Bansal, A; Verma, SS Tailoring LSPR-Based Absorption and Scat-tering E�ciencies of Semiconductor-Coated Au nanoshells, PLAS-MONICS, 9 (2):335-341; 10.1007/s11468-013-9629-4 APR 2014

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1710. Cardoso-Avila, P.E., Pichardo-Molina, J.L., Kumar, K.U., Arenas-Alatorre, J.A. Temperature and amino acid-assisted size- andmorphology-controlled photochemical synthesis of silver decahe-dral nanoparticles, Journal of Experimental Nanoscience Volume9, Issue 6, July 2014, Pages 639-651

1709. Bansal, A. , Verma, S.S Simulated study of plasmonic coupling innoble bimetallic alloy nanosphere arrays, AIP Advances Volume4, Issue 5, May 2014, Article number 057104

1708. Kalainila, P., Subha, V., Ernest Ravindran, R.S., Renganathan, S.Synthesis and characterization of silver nanoparticle from Eryth-rina indica, Asian Journal of Pharmaceutical and Clinical Research,Volume 7, Issue SUPPL. 2, May 2014, Pages 39-43

1707. Kannan, P., Los, M., Los, J.M., Niedziolka-Jonsson, J. T7 bacteriop-hage induced changes of gold nanoparticle morphology: Biopoly-mer capped gold nanoparticles as versatile probes for sensitiveplasmonic biosensors, Analyst 139, Issue 14, 21 July 2014, Pages3563-3571

1706. Emmanuel, R., Karuppiah, C., Chen, S.-M., Palanisamy, S., Padma-vathy, S., Prakash, P. Green synthesis of gold nanoparticles fortrace level detection of a hazardous pollutant (nitrobenzene) cau-sing Methemoglobinaemia, Journal of Hazardous Materials Volu-me 279, 30 August 2014, Pages 117-124

1705. Kalainila, P., Subha, V., Ernest Ravindran, R.S., Renganathan, S.Synthesis and characterization of silver nanoparticle from Eryth-rina indica, Asian Journal of Pharmaceutical and Clinical ResearchVolume 7, Issue SUPPL. 2, May 2014, Pages 39-43

1704. Rezaee, P. , Kermanshahi, R.K., Katouli, M. Prebiotics decrease theantibacterial e�ect of nano silver and nano TiO2 particles againstprobiotic bacteria of food, Current Nutrition and Food Science Vo-lume 10, Issue 2, 2014, Pages 88-93

1703. Pushpanathan, V. , Kumar, D.S. Synthesis and characterization ofZn nanoparticles by using hetero-bicyclic compound, AdvancedMaterials Research Volume 938, 2014, Pages 3-8

1702. Ulug, B., Haluk Turkdemir, M., Cicek, A., Mete, A. Role of irradia-tion in the green synthesis of silver nanoparticles mediated by �g(Ficus carica) leaf extract, Spectrochimica Acta - Part A: Molecu-lar and Biomolecular Spectroscopy Volume 135, 25 January 2015,Pages 153-161


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1699. Yu, T., Wu, Z., Kim, W.-S. Mild temperature synthesis of gold nano-plates using polyethyleneimine and their improved surface enhan-ced Raman signal, RSC Advances Volume 4, Issue 71, 2014, Pages37516-37521

1698. Wu, W., Maye, M.M. Discrete dipole approximation analysis of plas-monic core/alloy nanoparticles, ChemPhysChem Volume 15, Issue12, 25 August 2014, Pages 2582-2587

1697. Mazzoni, M., Ratto, F., Fortunato, C., Centi, S., Tatini, F., Pini, R Partialdecoupling in aggregates of silanized gold nanorods, Journal ofPhysical Chemistry C Volume 118, Issue 34, August 28, 2014, Pages20018-20025

1696. Ali, S., Iqbal, Y., Ajmal, M., Gonella, F., Cattaruzza, E., Quaranta,A Field-driven di�usion of transition metal and rare-earth ions insilicate glasses, Journal of Non-Crystalline Solids Volume 405, 1December 2014, Pages 39-44

1695. Ajitha, B., Ashok Kumar Reddy, Y., Sreedhara Reddy, P Enhancedantimicrobial activity of silver nanoparticles with controlled parti-cle size by pH variation, Powder Technology Volume 269, January01, 2015, Pages 110-117

1694. Kalainila, P., Subha, V., Ernest Ravindran, R.S., Renganathan, S. Ef-fect of green synthesized silver nanoparticles incorporated withgelatin for sustained drug release, International Journal of Chem-Tech Research Volume 6, Issue 10, 2014, Pages 4542-4549


1693. El-Sheekh, MM; El-Kassas, HY Application of Biosynthesized Sil-ver Nanoparticles Against a Cancer Promoter Cyanobacterium, Mi-crocystis aeruginosa, ASIAN PACIFIC JOURNAL OF CANCER PREVEN-TION, 15 (16):6773-6779; 10.7314/APJCP.2014.15.16.6773 SEP 2 2014

1692. Ramesh, M., Anbuvannan, M., Viruthagiri, G. Green synthesis ofZnO nanoparticles using Solanum nigrum leaf extract and theirantibacterial activity, Spectrochimica Acta - Part A: Molecular andBiomolecular Spectroscopy Volume 136, Issue PB, 5 February 2015,Pages 864-870

1691. Klinkova, A., Therien-Aubin, H., Ahmed, A., Nykypanchuk, D.,Choueiri, R.M., Gagnon, B., Muntyanu, A., Gang, O., Walker, G.C.,Kumacheva, E. Structural and optical properties of self-assembledchains of plasmonic nanocubes, Nano Letters Volume 14, Issue 11,12 November 2014, Pages 6314-6321

1690. Abd El-Aziz, A.R.M. Eco-friendly biosynthesis of silver nanoparti-cles by Aspergillus parasiticus, Digest Journal of Nanomaterialsand Biostructures Volume 9, Issue 4, 2014, Pages 1485-1492

1689. Nitinaivinij, K., Parnklang, T., Thammacharoen, C., Ekgasit, S., Won-gravee, K. Colorimetric determination of hydrogen peroxide bymorphological decomposition of silver nanoprisms coupled withchromaticity analysis , Analytical Methods Volume 6, Issue 24, 21December 2014, Pages 9816-9824

1688. Bansal, A. , Verma, S.S. Optical response of noble metal alloynanostructures, Physics Letters, Section A: General, Atomic andSolid State Physics Volume 379, Issue 3, 23 January 2015, Pages163-169

1687. Khalil, MMH; Ismail, EH; El-Baghdady, KZ; Mohamed, D Green synt-hesis of silver nanoparticles using olive leaf extract and its anti-bacterial activity, ARABIAN JOURNAL OF CHEMISTRY, 7 (6):1131-1139;10.1016/j.arabjc.2013.04.007 DEC 2014

1686. Heon, L; Kim, HG; Kim, BH; Yun, JJ; Chung, M; Ahn, HG; Lee,YS; Jung, SC Investigation on Sized-Regulated Iron Nanoparti-cles Prepared by Liquid Phase Plasma Reduction Process, JOUR-NAL OF NANOSCIENCE AND NANOTECHNOLOGY, 15 (1):518-521;10.1166/jnn.2015.8339 JAN 2015

1685. Kaur, R., Pal, B. Cu nanostructures of various shapes and sizes assuperior catalysts for nitro-aromatic reduction and co-catalyst forCu/TiO2 photocatalysis, Applied Catalysis A: General Volume 491,2014, Pages 28-36

1684. Arun, G., Eyini, M., Gunasekaran, P. Green synthesis of silver na-noparticles using the mushroom fungus Schizophyllum communeand its biomedical applications, 2015 Biotechnology and Biopro-cess Engineering 19 (6), pp. 1083-1090

1683. Cepoi, L.; Rudi, L.; Chiriac, T.; et al. Biochemical changes in cya-nobacteria during the synthesis of silver nanoparticles, CANADIANJOURNAL OF MICROBIOLOGY 61 (1) Pages: 13-21 JAN 2015

1682. Emam, H.E., Zahran, M.K. Ag0 nanoparticles containing cotton fa-bric: Synthesis, characterization, color data and antibacterial ac-tion, International Journal of Biological Macromolecules Volume75, April 01, 2015, Pages 106-114

1681. Poopathi, S; De Britto, LJ; Praba, VL; Mani, C; Praveen, M Synthesisof silver nanoparticles from Azadirachta indica-a most e�ectivemethod for mosquito control, ENVIRONMENTAL SCIENCE AND PO-LLUTION RESEARCH, 22 (4):2956-2963; 10.1007/s11356-014-3560-x FEB 2015

1680. Zhang, C.-H., Zhu, J., Li, J.-J., Zhao, J.-W. Misalign-dependent doubleplasmon modes ”switch.of gold triangular nanoplate dimers, 2015Journal of Applied Physics 117 (6), 063102

1679. Li, H., Sun, D.-E., Liu, Z. Ultrasensitive Biosensing Platform Basedon the Luminescence Quenching Ability of Plasmonic PalladiumNanoparticles, 2015 Chemistry - A European Journal 21 (13), pp.4944-4948

1678. Fritz, E.-C., Nimphius, C., Goez, A., (...), Glorius, F., Ravoo, B.J. Se-quential surface modi�cation of Au nanoparticles: From surface-bound AgI complexes to Ag0 doping, 2015 Chemistry - A EuropeanJournal 21 (12), pp. 4541-4545

1677. Benyettou, F., Nchimi- Nono, K., Jouiad, M., (...), Saleh, N., Trabol-si, A. Viologen-templated arrays of cucurbit[7]uril-modi�ed iron-oxide nanoparticles, 2015 Chemistry - A European Journal 21 (12),pp. 4607-4613

1676. Sikdar, D., Cheng, W., Premaratne, M. Optically resonant magneto-electric cubic nanoantennas for ultra-directional light scattering,2015 Journal of Applied Physics 117 (8), 083101

1675. El-Zahry, M.R., Mahmoud, A., Refaat, IH; Mohamed, HA; Bohlmann,H; Lendl, B Antibacterial e�ect of various shapes of silver nano-particles monitored by SERS, 2015 Talanta 138, 15395, pp. 183-189

1674. Jana, D., Matti, C., He, J., Sagle, L. Capping Agent-Free Gold Na-nostars Show Greatly Increased Versatility and Sensitivity for Bio-sensing, 2015 Analytical Chemistry 87 (7), pp. 3964-3972


1672. Zhang, Y.-F., Wang, J.-H., Ma, L., (...), Zhou, L., Wang, Q.-Q. Growthof silver-coated gold nanoshells with enhanced linear and nonli-near optical responses, 2015 Journal of Nanoparticle Research 17(3)

1671. Siva, S; Sudharsan, S; Kannan, RS Selective Co(II) removal fromaqueous media by immobilizing silver nanoparticles within apolymer-matrix through a formaldehyde cross linking agent, RSCADVANCES, 5 (30):23340-23349; 10.1039/c4ra15510f 2015

1670. Liang, J.-L., Shen, S.-W., Ye, S.-Y., Ye, L.-M. Prediction of size distri-bution of Ag nanoparticles synthesized via gamma-ray radiolysis,2015 Radiation Physics and Chemistry 114, pp. 5-11

1669. Dutta Roy, S., Ghosh, M., Chowdhury, J. Adsorptive parameters andin�uence of hot geometries on the SER(R) S spectra of methyleneblue molecules adsorbed on gold nanocolloidal particles, 2015Journal of Raman Spectroscopy46 (5), pp. 451-461

1668. Sridevi, A., Sandhya, A., Suvarnalatha Devi, P. Characterization andantibacterial studies of leaf assisted silver nanoparticles from cari-ca papaya: A green synthetic approach, (2015) International Jour-nal of Pharmacy and Pharmaceutical Sciences, 7 (5) pp. 143-146.

1667. Dauthal, P; Mukhopadhyay, M Agro-industrial waste-mediatedsynthesis and characterization of gold and silver nanoparti-cles and their catalytic activity for 4-nitroaniline hydrogenation,KOREAN JOURNAL OF CHEMICAL ENGINEERING, 32 (5):837-844;10.1007/s11814-014-0277-y MAY 2015

1666. Venkatachalam, P; Sangeetha, P; Geetha, N; Sahi, SV Phytofabri-cation of Bioactive Molecules Encapsulated Metallic Silver Na-noparticles from Cucumis sativus L. and Its Enhanced WoundHealing Potential in Rat Model, JOURNAL OF NANOMATERIALS,10.1155/2015/753193 2015

1665. Patil, S; Desai, N; Mahadik, K; Paradkar, A Can green synthesizedpropolis loaded silver nanoparticulate gel enhance wound healingcaused by burns?, EUROPEAN JOURNAL OF INTEGRATIVE MEDICINE,7 (3):243-250; 10.1016/j.eujim.2015.03.002 MAY 2015

1664. Roy, S.D., Ghosh, M., Chowdhury, J. How hottest geometries andadsorptive parameters in�uence the SER(R)S spectra of Methyle-ne Blue molecules adsorbed on nanocolloidal gold particles ofvaried sizes?, 2015 Spectrochimica Acta - Part A: Molecular andBiomolecular Spectroscopy 151, pp. 796-806

1663. De Puig, H., Tam, J.O., Yen, C.-W., Gehrke, L., Hamad-Schi�erli, K.Extinction Coe�cient of Gold Nanostars, 2015 Journal of PhysicalChemistry C 119 (30), pp. 17408-17415


1662. Arif, D., Niazi, M.B.K., Ul-Haq, N., Anwar, M.N., Hashmi, E. Prepara-tion of antibacterial cotton fabric using chitosan-silver nanoparti-cles, 2015 Fibers and Polymers 16 (7), pp. 1519-1526

1661. Dhanasekar, N.N., Rahul, G.R., Narayanan, K.B., Raman, G., Sakthi-vel, N. Green chemistry approach for the synthesis of gold na-noparticles using the fungus Alternaria sp, 2015 Source of theDocumentJournal of Microbiology and Biotechnology 25 (7), pp.1129-1135

1660. Capek, I. Viral nanoparticles, noble metal decorated viruses andtheir nanoconjugates, 2015 Advances in Colloid and InterfaceScience 222, pp. 119-134

1659. Lavakumar, V., Masilamani, K., Ravichandiran, V., (...), Ashok Ku-mar, C.K., Sowmya, C. Promising upshot of silver nanoparticlesprimed from Gracilaria crassa against bacterial pathogens, 2015Chemistry Central Journal 9 (1), 42

1658. Chandra, S., Doran, J., McCormack, S.J. Two step continuous met-hod to synthesize colloidal spheroid gold nanorods, 2015 Journalof Colloid and Interface Science 459, pp. 218-223

1657. Capek, I. Viral nanoparticles, noble metal decorated viruses andtheir nanoconjugates, Advances in Colloid and Interface ScienceVolume 222, 12 August 2015, Pages 119-134

1656. Shahbazia, B., Khodabandehloo, M., Rezaei, M.J., (...), Ramazan-zadeh, R., Basirie, M.R. In vivo and in vitro cytotoxicity and mu-tagenicity considerations of poly (amido amine) dendrimer, 2015Journal of Reports in Pharmaceutical Sciences 4 (1), pp. 101-110

1655. El-Kassas, H.Y., El Komi, M.M. Biogenic silver nanoparticles usingseaweed Ulva rigida and their fungicidal and cytotoxic e�ects,2015 Journal of King Abdulaziz University, Marine Science25 (1),pp. 3-20

1654. Salhi, M; Passian, A; Siopsis, G Toroidal nanotraps for coldpolar molecules, PHYSICAL REVIEW A, 92 (3):10.1103/PhysRe-vA.92.033416 SEP 14 2015

1653. Serin, A; Bourlion, M; Diologent, F; Ziegenhagen, R; Germain, VNew deeply coloured 18-K gold materials built by nanotechnolo-gies, GOLD BULLETIN, 48 (1-2):13-20; 10.1007/s13404-014-0154-9AUG 2015

1652. Chandra, S.; Doran, J.; McCormack, S. J. Two step continuous met-hod to synthesize colloidal spheroid gold nanorods,JOURNAL OFCOLLOID AND INTERFACE SCIENCE 459, 218-223 DEC 1 2015

1651. Siva, S., Sudharsan, S., Sayee Kannan, R. Synthesis, characteriza-tion and ion-exchange properties of novel hybrid polymer nano-composites for selective and e�ective mercury(II) removal, 2015RSC Advances 5 (97), pp. 79665-79678

1650. Morita-Imura, C., Kobayashi, T., Imura, Y., Kawai, T., Shindo, H.PH-induced recovery and redispersion of shape-controlled goldnanorods for nanocatalysis, 2015 RSC Advances 5 (93), pp. 75889-75894

1649. Patil, S., Desai, N., Mahadik, K., Paradkar, A. Can green synthesizedpropolis loaded silver nanoparticulate gel enhance wound healingcaused by burns?, 2015 European Journal of Integrative Medicine7 (3), pp. 243-250

1648. Lizundia, E., Ruiz-Rubio, L., Vilas, J.L., Leon, L.M. Poly(l -lactide)/znonanocomposites as e�cient UV-shielding coatings for packagingapplications, 2016 Journal of Applied Polymer Science 133 (2),42426


1646. Al-Omair, MA Synthesis of Antibacterial Silver-Poly(epsilon-caprolactone)-Methacrylic Acid Gra� Copolymer Nano�bers andTheir Evaluation as Potential Wound Dressing, POLYMERS, 7(8):1464-1475; 10.3390/polym7081464 AUG 2015

1645. Pal, S., Tak, Y.K., Song, J.M. Does the antibacterial activity of silvernanoparticles depend on the shape of the nanoparticle? A studyof the gram-negative bacterium Escherichia coli 2015 Journal ofBiological Chemistry 290 (42), pp. 1712-1720

1644. Vartia, O.S., Yla-Oijala, P., Markkanen, J., (...), Sihvola, A., Ala-Nissila, T. On the applicability of discrete dipole approximationfor plasmonic particles, 2016 Journal of Quantitative Spectroscopyand Radiative Transfer 169, pp. 23-35


1642. Ortega-Mendoza, JG; Hernandez-Alvarez, C; Padilla-Vivanco, A;Toxqui-Quitl, C; Zaca-Moran, P; Chavez, F; Goiz, O Photomeltingand photofragmentation of silver nanoparticles suspended in et-hanol, NANOPHOTONIC MATERIALS XII, 9545 10.1117/12.21887302015

1641. Attanayake, T; Premaratne, M; Agrawal, G Characterizing the Opti-cal Response of Symmetric Hemispherical Nano-dimers, PLASMO-NICS, 10 (6):1453-1466; 10.1007/s11468-015-9946-x DEC 2015

1640. Chekini, M; Cataldi, U; Moroni, P; Guenee, L; Cerny, R;Burgi, T Preparation of Anisotropic and Oriented Parti-cles on a Flexible Substrate, LANGMUIR, 31 (48):13221-13229;10.1021/acs.langmuir.5b03524 DEC 8 2015

1639. Schnitzer, O. Singular perturbations approach to localized surface-plasmon resonance: Nearly touching metal nanospheres, 2015Physical Review B - Condensed Matter and Materials Physics 92(23), 235428

1638. Kavyashree, D., Anandakumari, R., Nagabhushana, H., (...), RajaNaik, H., Lingaraju, K. Kalonji seed extract mediated green synt-hesis of ZnO nanopowders: Photocatalytic, antibacterial and an-tioxidant activities, 2015 Materials Science Forum 830-831, pp.533-536

1637. Tang, Y; Fu, XL; Ban, GJ; Peng, ZJ Synthesis and Absorption Spectraof AuAg Alloyed Nanotubes, RARE METAL MATERIALS AND ENGI-NEERING, 44 417-420; 1 NOV 2015

1636. Dhibi, A., Khemiri, M., Oumezzine, M. Theoretical study of surfaceplasmons coupling in transition metallic alloy 2D binary grating,2016 Physica E: Low-Dimensional Systems and Nanostructures 79,pp. 160-166

1635. Sangeetha, R., Niranjan, P., Dhanalakshmi, N. Characterization ofsilver nanoparticles synthesized using the extract of the leaves ofTridax procumbens, 2016 Research Journal of Medicinal Plant 10(2), pp. 159-166


1633. Kamel, Z., Saleh, M., El Namoury, N. Biosynthesis, characterization,and antimicrobial activity of silver nanoparticles from actinomy-cetes, 2016 Research Journal of Pharmaceutical, Biological andChemical Sciences 7 (1), pp. 119-127

1632. Yao, H. Monolayer-protected metal nanoclusters with chirality:Synthesis, size fractionation, optical activity and asymmetric trans-formation, 2015 Handbook of Nanoparticles pp. 191-216

1631. Imura, Y., Furukawa, S., Ozawa, K., (...), Kawai, T., Komatsu, T. Sur-face clean gold nano�ower obtained by complete removal of cap-ping agents: An active catalyst for alcohol oxidation, 2016 RSCAdvances 6 (21), pp. 17222-17227


1630. Farah, MA; Ali, MA; Chen, SM; Li, Y; Al-Hemaid, FM; Abou-Tarboush,FM; Al-Anazi, KM; Lee, J. Silver nanoparticles synthesized fromAdenium obesum leaf extract induced DNA damage, apoptosisand autophagy via generation of reactive oxygen species, 2016Colloids and Surfaces B: Biointerfaces 141, pp. 158-169

1629. He, W; Liu, XJ; Kienzle, A; Muller, WEG; Feng, QL In Vitro Uptakeof Silver Nanoparticles and Their Toxicity in Human MesenchymalStem Cells Derived from Bone Marrow, JOURNAL OF NANOSCIENCEAND NANOTECHNOLOGY, 16 (1):219-228; 10.1166/jnn.2016.10728JAN 2016

1628. Ankamwar, B., Kamble, V., Sur, U.K., Santra, C. Spectrophotometricevaluation of surface morphology dependent catalytic activity ofbiosynthesized silver and gold nanoparticles using UV-vis spectra:A comparative kinetic study, 2016 Applied Surface Science 366,pp. 275-283

1627. Garg, V; Sengar, BS; Awasthi, V; Aaryashree; Sharma, P; Mukherjee,C; Kumar, S; Mukherjee, S Localized surface plasmon resonanceon Au nanoparticles: tuning and exploitation for performance en-hancement in ultrathin photovoltaics, RSC ADVANCES, 6 (31):26216-26226; 10.1039/c5ra25575a 2016

1626. Makwana, BA; Vyas, DJ; Bhatt, KD; Darji, S; Jain, VK Novel �uo-rescent silver nanoparticles: sensitive and selective turn o� sen-sor for cadmium ions, APPLIED NANOSCIENCE, 6 (4):555-566;10.1007/s13204-015-0459-x APR 2016

1625. Subha, V; Ramadoss, P; Renganathan, S Incorporation of biotrans-formed silver nanoparticles in plant polysaccarides resin and theire�ect on sustained drug release, POLYMER SCIENCE SERIES B, 58(1):61-72; 10.1134/S1560090416010073 JAN 2016

1624. Ali, K., Dwivedi, S., Azam, A., (...), Alkhedhairy, A.A., Musarrat, J.Aloe vera extract functionalized zinc oxide nanoparticles as na-noantibiotics against multi-drug resistant clinical bacterial isolates,2016 Journal of Colloid and Interface Science 472, pp. 145-156

1623. El-Sayed, A.A., Khalil, A.M., El-Shahat, M., Khaireldin, N.Y., Rabie,S.T. Antimicrobial activity of PVC-pyrazolone-silver nanocompo-sites, 2016 Journal of Macromolecular Science, Part A: Pure andApplied Chemistry 53 (6), pp. 346-353

1622. Ajitha, B; Reddy, YAK; Reddy, PS; Jeon, HJ; Ahn, CW Role of cappingagents in controlling silver nanoparticles size, antibacterial activityand potential application as optical hydrogen peroxide sensor, RSCADVANCES, 6 (42):36171-36179; 10.1039/c6ra03766f 2016

1621. Erwin, WR; Zarick, HF; Talbert, EM; Bardhan, R Light trapping inmesoporous solar cells with plasmonic nanostructures, ENERGY &ENVIRONMENTAL SCIENCE, 9 (5):1577-1601; 10.1039/c5ee03847b2016

1620. Zhang, J; Wang, Q; Zhang, XH; Wang, JG; Guo, M; Wiley, BJ; Li, CH;Hu, CW, Carbamide promoted polyol synthesis and transmittanceproperties of silver nanocubes, INORGANIC CHEMISTRY FRONTIERS,3 (4):547-555; 10.1039/c5qi00256g 2016

1619. Tau�kurohmah, T., Sanjaya, I.G.M., Baktir, A., Syahrani, A. Stabilityof colloidal silver nanoparticles synthesized with variance silverions as antimicrobial in cosmetic formulation, 2015 Asian Journalof Chemistry 27 (4), pp. 1525-1528

1618. Lee, Y.K., Lee, H., Lee, C., Hwang, E., Park, J.Y. Hot-electron-basedsolar energy conversion with metal-semiconductor nanodiodes,2016 Journal of Physics Condensed Matter 28 (25), 254006

1617. Elfassy, E., Mastai, Y., Salomon, A. Cysteine sensing by plasmonsof silver nanocubes, 2016 Journal of Solid State Chemistry 241, pp.110-114

1616. CASTILLO, C; BUONO-CORE, G; MANZUR, C; et al.MOLYBDENUMTRIOXIDE THIN FILMS DOPED WITH GOLD NANOPARTICLES GROWNBY A SEQUENTIAL METHODOLOGY: PHOTOCHEMICAL METAL-ORGANIC DEPOSITION (PMOD) AND DC-MAGNETRON SPUTTERING,Journal of the Chilean Chemical Society 61, 2816-2820 (2016)

1615. Efa�, B., Majles Ara, M.H., Mousavi, S.S. Strong blue emission fromZnO nanocrystals synthesized in acetone-based solvent, 2016Journal of Luminescence 178, pp. 384-387

1614. Morita-Imura, C; Zama, K; Imura, Y; Kawai, T; Shindo, H Stimuli-Responsive Extraction and Ambidextrous Redispersion of Zwit-terionic Amphiphile-Capped Silver Nanoparticles, LANGMUIR, 32(27):6948-6955; 10.1021/acs.langmuir.6b01753 JUL 12 2016

1613. Wu, XL; Liu, WG; Li, JG; Zhu, Q; Li, XD; Sun, XD Sulfate Ex-change of the Nitrate-Type Layered Hydroxide Nanosheets ofLn(2)(OH)(5)NO3 center dot nH(2)O for Better Dispersed and Multi-color Luminescent Ln(2)O(3) Nanophosphors (Ln = Y0.98RE0.02,RE = Pr, Sm, Eu, Tb, Dy, Ho, Er, and Tm), NANOSCALE RESEARCHLETTERS, 11 10.1186/s11671-016-1544-0 JUL 12 2016

1612. Xing, TY; Zhu, J; Li, JJ; Zhao, JW Morphology modi�cation ofgold nanoparticles from nanoshell to C-shape: Improved surfa-ce enhanced Raman scattering, JOURNAL OF APPLIED PHYSICS, 119(24):10.1063/1.4954977 JUN 28 2016

1611. Zhou, DD; Liu, BM; Zhou, Y; Chen, MZ; Fang, YZ; Hou, JS; Li, LN; Sun,HT Air-stable and highly luminescent bismuth complex nanopar-ticles, JOURNAL OF MATERIALS CHEMISTRY C, 4 (22):4899-4904;10.1039/c6tc01327a 2016

1610. Lin, J.-Y., Tsai, C.-Y., Lin, P.-T., (...), Hsiao, C.-F., Lee, P.-T. Optical Pro-perties of Plasmonic Mirror-Image Nanoepsilon, 2016 NanoscaleResearch Letters 11 (1), 327

1609. Qin, Z., Wang, Y., Randrianalisoa, J., (...), Lipinski, W., Bischof, J.C.Quantitative comparison of photothermal heat generation bet-ween gold nanospheres and nanorods, 2016 Scienti�c Reports 6,29836

1608. Britto Hurtado, R.; Cortez-Valadez, M.; Ramirez-Rodriguez, L. P.; etal. Instant synthesis of gold nanoparticles at room temperatureand SERS applications, PHYSICS LETTERS A 380, 2658-2663 (2016)

1607. Imura, C.-M., Mori, T., Imura, Y., Kawai, T. Dendritic gold nanowi-res supported on SiO2 nanoparticles fabricated by a seed growthmethod, 2016 New Journal of Chemistry 40 (8), pp. 7048-7052

1606. Malynych, S., Moroz, I., Kurlyak, V. Ptical extinction spectra of theaqueous suspensions of ag nanoparticles, 2007 Ukrainian Journalof Physical Optics 8 (1), pp. 54-59

1605. Ali, A; Zafar, H; Zia, M; Haq, IU; Phull, AR; Ali, JS; Hussain, A Synt-hesis, characterization, applications, and challenges of iron oxidenanoparticles, NANOTECHNOLOGY SCIENCE AND APPLICATIONS, 949-67; 10.2147/NSA.S99986 2016

1604. Patel, AS; Sahoo, H; Mohanty, T Investigating the Energy Transferfrom Dye Molecules to DNA Stabilized Au Nanoparticles, JOURNALOF FLUORESCENCE, 26 (5):1849-1855; 10.1007/s10895-016-1878-0SEP 2016

1603. Wen, ZW; Liang, CY; Bi, H; Li, YS; Che, RC Controllable synthe-sis of elongated hexagonal bipyramid shaped La(OH)(3) nanorodsand the distribution of electric property by o�-axis electron ho-lography, NANO RESEARCH, 9 (9):2561-2571; 10.1007/s12274-016-1142-6 SEP 2016

1602. Ethiraj, A.S., Jayanthi, S., Ramalingam, C., Banerjee, C. Control ofsize and antimicrobial activity of green synthesized silver nano-particles, 2016 Materials Letters 185, pp. 526-529

1601. Nasilowski, M., Mahler, B., Lhuillier, E., Ithurria, S., Dubertret, B.Two-Dimensional Colloidal Nanocrystals 2016 Chemical Reviews116 (18), pp. 10934-10982

1600. Moreno-Trejo, MB; Sanchez-Dominguez, M Mesquite Gum as aNovel Reducing and Stabilizing Agent for Modi�ed Tollens Synt-hesis of Highly Concentrated Ag Nanoparticles, MATERIALS, 9(10):10.3390/ma9100817 OCT 2016


1599. Das, K; Sarkar, S; Das, PK Fluorescent Indicator Displacement As-say: Ultrasensitive Detection of Glutathione and Selective CancerCell Imaging, ACS APPLIED MATERIALS & INTERFACES, 8 (39):25691-25701; 10.1021/acsami.6b06353 OCT 5 2016

1598. Ali, A., Zafar, H., Zia, M., (...), Ali, J.S., Hussain, A. Synthesis, cha-racterization, applications, and challenges of iron oxide nanoparti-cles, 2016 Nanotechnology, Science and Applications 9, pp. 49-67

1597. Siva, S., Anandhavelu, S., Revathi, R., Jeeva Rose, K., Yogananth,A. Preparation of Chitosan/Seaweed-ZnO nanorods for better an-tibacterial activity, 2016 International Journal of Control Theoryand Applications 9 (9), pp. 4003-4008

1596. Abd-Elnaby, H.M., Abo-Elala, G.M., Abdel-Raouf, U.M., Hamed,M.M. Antibacterial and anticancer activity of extracellular synt-hesized silver nanoparticles from marine Streptomyces rocheiMHM13, 2016 Egyptian Journal of Aquatic Research 42 (3), pp.301-312

1595. Moreno-Trejo, M.B., Sanchez-Dominguez, M. Mesquite gum as anovel reducing and stabilizing agent for modi�ed tollens synthesisof highly concentrated ag nanoparticles, 2016 Materials 9 (10), 817

1594. Zhu, JJ; Kan, CX; Wu, YZ; Wan, JG; Han, M; Wang, GH A Novel Dis-covery of Growth Process for Ag Nanowires and Plausible Mecha-nism, JOURNAL OF NANOMATERIALS, 10.1155/2016/5812739 2016

1593. da Silva Ferreira, V., ConzFerreira, M.E., Lima, L.M.T.R., (...), de Sou-za, W., SantAnna, C. Green production of microalgae-based silverchloride nanoparticles with antimicrobial activity against patho-genic bacteria, 2017 Enzyme and Microbial Technology 97, pp.114-121

1592. Debu, D.T., Ghosh, P.K., French, D., Herzog, J.B. Surface plasmondamping e�ects due to Ti adhesion layer in individual gold nano-disks, 2017 Optical Materials Express 7 (1), pp. 73-84

1591. Afzalian Mend, B., Delavar, M., Darroudi, M. CdO-NPs; synthesisfrom 1D new nano Cd coordination polymer, characterization andapplication as anti-cancer drug for reducing the viability of cancercells, 2017 Journal of Molecular Structure 1134, pp. 599-605TIPO B (2):

1590. Borensztein, Y; Delannoy, L; Barrera, RG; Louis, C Kinetics of theplasmon optical response of Au nanoparticles/TiO(2) catalyst un-der O(2) and H(2) followed by di�erential di�use re�ectance spec-troscopy, EUROPEAN PHYSICAL JOURNAL D 63 (2): 235-240 2011

1589. Gutierrez-Reyes, E., Garcia-Valenzuela, A., Barrera, R.G. Extensionof Fresnels formulas for turbid colloidal suspensions: A rigoroustreatment, Journal of Physical Chemistry B 118, Issue 22, 5 June2014, Pages 6015-6031

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1588. Wang, M.C.P., Gates, B.D., Directed assembly of nanowires, Mate-rials Today 12, 34 (2009)

1587. Singh, J; Verma, SS Plasmonics with Nanostructure Materials, AsianJ. Chemistry 21, S081 (2009)

1586. Trinh LTT, Kjoniksen AL, Zhu KZ, Knudsen KD, Volden S, Glomm WR,Nystrom B Slow salt-induced aggregation of citrate-covered silverparticles in aqueous solutions of cellulose derivatives, Colloid andPolymer Science 298, 1391 (2009)

1585. X Gao and X Gan, Modulation of evanescent focus by localizedsurface plasmons waveguide, Opt. Express 17, 22726 (2009)

1584. Prudenzano, F., Mescia, L., Allegretti, L., De Sario, M.D., Di Tom-maso, A., Palmisano, T., Feron, Chiappini, A., Ferrari, M., Soria,S., Righini, G.C Modeling of nano-and micro-spheres for sensingapplications, ICTON 2009: 11th International Conference on Trans-parent Optical Networks, art. no. 5185152 (2009)

1583. Karabchevsky A, Krasnykov O, Auslender M, Hadad B, Goldner A,Abdulhalim I, Theoretical and Experimental Investigation of Enhan-ced Transmission Through Periodic Metal Nanoslits for Sensing inWater Environment, Plasmonics 4, 281 (2009)

1582. Khlebtsov, NG; Dykman, LA, Optical properties and biomedical ap-plications of plasmonic nanoparticles, J. Quantitative Spectroscopy& Radiative Transfer 111, 1-35 (2010)

1581. Trinh, L.T.T., Volden, S., Kjoniksen, A.-L., Zhu, K., Knudsen, K.D.,Glomm, W.R., Nystrom, B, Temperature-induced adsorption andoptical properties of an amphiphilic diblock copolymer adsorbedonto �at and curved silver surfaces, J. of Colloid and InterfaceScience 342, 142 (2010)

1580. Seyed-Razavi, A; Snook, IK; Barnard, AS, Origin of nanomorpho-logy: does a complete theory of nanoparticle evolution exist? J.of Materials Chem. 20, 416 (2010)

1579. I I. Naumov, Z Li, A M. Bratkovsky Plasmonic resonances and hotspots in Ag octopods, Appl. Phys. Lett. 96, 033105 (2010)

1578. Ha Minh Hiep, Hiroyuki Yoshikawa and Eiichi Tamiya InterferenceLocalized Surface Plasmon Resonance Nanosensor Tailored for theDetection of Speci�c Biomolecular Interactions, Anal. Chem. 82,1221 (2010)

1577. Karabchevsky A, Krasnykov O, Abdulhalim I, Hadad B, Goldner A,Auslender M, Metal grating on a substrate nanostructure for sen-sor applications, Photonics & Nanostructures-Fundamentals andApplications 7, 170 (2009)

1576. Prudenzano, F.; Mescia, L.; Allegretti, L.; De Sario, M.; Di Tomma-so, A.; Palmisano, T.; Feron, P.; Chiappini, A.; Ferrari, M.; Soria, S.;Righini, G. C.; Modeling of Nano- and Micro-Spheres for SensingApplications, ICTON: 2009 11th Int. Conf. Transparent Optical Net-works, Vols 1 and 2 : 869-872 (2009)

1575. Hiep, HM; Saito, M; Nakamura, Y; Tamiya, E RNA aptamer-basedoptical nanostructured sensor for highly sensitive and label-freedetection of antigen-antibody reactions, Analytical and Bioanaly-tical Chem. 396 (7): 2575-2581 APR 2010

1574. Amendola, V; Bakr, OM; Stellacci, F A Study of the Surface PlasmonResonance of Silver Nanoparticles by the Discrete Dipole Appro-ximation Method: E�ect of Shape, Size, Structure, and Assembly,Plasmonics 5 (1): 85 (2010)

1573. Sykora, D; Kasicka, V; Miksik, I; Rezanka, P; Zaruba, K; Matejka, P;Kral, V Application of gold nanoparticles in separation sciences, J.Saparation Sci. 33 (3): 372-387 FEB 2010

1572. Kim, K.-H., Husakou, A., Herrmann, J. Linear and nonlinear opticalcharacteristics of composites containing metal nanoparticles withdi�erent sizes and shapes, Optics Express 18, 7488 (2010)

1571. Imamova, S., Dikovska, A., Nedyalkov, N., Atanasov, P., Sawczak,M., Jendrzejewski, R., Sliwinski, G., Obara, M. Laser nanostructu-ring of thin Au �lms for application in surface enhanced Ramanspectroscopy, J. Optoelectronics and Advanced Materials 12 (3),pp. 500 (2010)

1570. Som, T; Karmakar, B Surface Plasmon Resonance and EnhancedFluorescence Application of Single-step Synthesized Elliptical NanoGold-embedded Antimony Glass Dichroic Nanocomposites, Plas-monics 5 (2): 149-159 JUN 2010

1569. Veron, O; Blondeau, JP; Abdelkrim, N; Ntsoenzok, E, LuminescenceStudy of Silver Nanoparticles Obtained by Annealed Ionic Exchan-ge Silicate Glasses, Plasmonics 5 (2): 213-219 JUN 2010


1568. Lun Ma, Wei Chen Luminescence enhancement and quenching inZnS:Mn by Au nanoparticles, J. Appl. Phys. 107, 123513 (2010)

1567. L R. P. Kassab, D S. da Silva, C B. de Araujo In�uence of metallicnanoparticles on electric-dipole and magnetic-dipole transitionsof Eu3+ doped germanate glasses, J. Appl. Phys. 107, 113506 (2010)

1566. Rostami, H; Abdi, Y; Arzi, E Fabrication of optical magnetic mirrorsusing bent and mushroom-like carbon nanotubes, Carbon 48 (13):3659-3666 NOV 2010

1565. Toma, H.E., Zamarion, V.M., Toma, S.H., Araki, K. The coordinationchemistry at gold nanoparticles J. Brazilian Chemical Society 21,1158 (2010)

1564. Singh, J., Verma, S.S. Plasmonics with nanostructure materials,Asian J. Chemistry 21 (10), pp. S081 2009

1563. Preclikova, J., Galar, P., Zidek, K., Trojanek, F., Maly, P. Multicolourphotochromic response of Ag-TiO2 nanocomposite - Role of lightillumination, 2010 J. Nanoscience and Nanotechnology 10 (4), pp.2630-2634

1562. Chopra, N Multifunctional and multicomponent heterostructuredone-dimensional nanostructures: advances in growth, characteri-sation, and applications, Materials Technol. 25 (3-4): 212-230 SEP2010

1561. Rivas, FC; Petranovskii, V; Ulloa, RZ Growth of copper nanoparticlesin erionite matrix, Rev. Mex. Fis. 56 (4): 328-333 AUG 2010

1560. Zeev Zalevsky, Ibrahim Abdulhalim Plasmonics, Integrated Nanop-hotonic Devices, 2010, Pages 175-240

1559. Park, S.-J., Lee, S.-W., Jeong, S., Lee, J.-H., Park, H.-H., Choi, D.-G.,Jeong, J.-H., Choi, J.-H. Nanosilver Colloids-Filled Photonic Crys-tal Arrays for Photoluminescence Enhancement, (2010) NanoscaleResearch Letters, 5 (10) pp. 1590-1595.

1558. Signori, AM; Santos, KD; Eising, R; Albuquerque, BL; Giacomelli, FC;Domingos, JB Formation of Catalytic Silver Nanoparticles Suppor-ted on Branched Polyethyleneimine Derivatives, Langmuir 26 (22):17772-17779 NOV 16 2010

1557. Krasnykov, O.; Karabchevsky, A.; Shalabney, A; Auslender, M; Ab-dulhalim, I. Sensor with increased sensitivity based on enhancedoptical transmission in the infrared, Optics Communications, 284(5), p.1435, Mar 2011

1556. JW Jian CC Huang Colorimetric Detection of DNA by Modulation ofThrombin Activity on Gold Nanoparticles, Chemistry - A EuropenaJ. 17, 2011, Pages: 2374–2380

1555. Park, SJ, Sohee-Jeong, Park, HH, Lee, SW, Jeon, S, Lee, JH, Choi,DG, Jeong, JH-Ho, Choi, JH, Optimized Film Processing of Nanosil-ver Colloids for Photoluminescence Enhancement, J. Nanosci. andNanotechnol. 11, 422 (2011)

1554. Y Cheng, L Yin, S Lin, M Wiesner, E Bernhardt, J Liu Toxicity Re-duction of Polymer-Stabilized Silver Nanoparticles by Sunlight, J.Phys. Chem. C, 2011, 115 (11), pp 4425–4432

1553. Wachter, C; Michaelis, D Simulation of Metallic Nanoparticles inLayered Structures, Numerical Analysis and applied Maths. VolsI-III 1281: 1626-1629 2010

1552. de Assumpcao, TAA; Kassab, LRP; Gomes, ASL; de Araujo, CB; Wet-ter, NU In�uence of the heat treatment on the nucleation of silvernanoparticles in Tm3+ doped PbO-GeO2 glasses, Appl. Phys. B-Lasers and optics 103 (1): 165-169 APR 2011

1551. Goesmann, H., Feldmann, C. Nanoparticulate functional materials,2010 Angewandte Chemie - International Edition 49 (8), pp. 1362-1395

1550. Li, Y., Lu, W., Huang, Q., Li, C., Chen, W. Copper sul�de nanoparti-cles for photothermal ablation of tumor cells, 2010 Nanomedicine5 (8), pp. 1161-1171

1549. Nedyalkov, N.N., Imamova, S.E., Atanasov, P.A., Toshkova, R.A., Gar-deva, E.G., Yossifova, L.S., Alexandrov, M.T., Obara, M. Interactionof gold nanoparticles with nanosecond laser pulses: Nanoparticleheating, 2011 Applied Surface Science 257 (12), pp. 5456-5459


1547. Durante, N., Fortunelli, A., Broyer, M., Stener, M. Optical proper-ties of Au nanoclusters from TD-DFT calculations, 2011 J. PhysicalChemistry C 115 (14), pp. 6277-6282

1546. Dominguez, CT; Maltez, RL; dos Reis, RMS; de Melo, LSA; de Araujo,CB; Gomes, ASL Dependence of random laser emission on silvernanoparticle density in PMMA �lms containing rhodamine 6G, J.Opt. Soc. Am. B-Optical Phys. 28 (5): 1118-1123 MAY 2011

1545. Leong, ESP; Liu, YJ; Wang, B; Teng, JH E�ect of Surface Morpho-logy on the Optical Properties in Metal-Dielectric-Metal Thin FilmSystems, ACS APPL. Materials & Interfaces 3 (4): 1148-1153 APR 2011

1544. Yang, JH; Sardar, DK One-Pot Synthesis of Coral-Shaped Gold Na-nostructures for Surface-Enhanced Raman Scattering, J. Nano Res.14: 47-55 2011

1543. Vorobyev, AY; Guo, CL Optical and Wetting Properties of Femtose-cond Laser Nanostructured Materials, J. Nano Res. 14: 57-67 2011

1542. Luty-Blocho, M., Fitzner, K., Hessel, V., Lob, P., Maskos, M., Metz-ke, D., Paclawski, K., Wojnicki, M. Synthesis of gold nanoparticlesin an interdigital micromixer using ascorbic acid and sodium bo-rohydride as reducers, 2011 Chemical Engineering Journal 171 (1),pp. 279-290

1541. Giannini, V., Fernandez-Dominguez, A.I., Heck, S.C., Maier, S.A.Plasmonic nanoantennas: Fundamentals and their use in contro-lling the radiative properties of nanoemitters, 2011 Chemical Re-views 111 (6), pp. 3888-3912

1540. Bhowmik, S., Holm, A., Ostroverkhova, O., Atre, S. Metallic nanos-tructures in a polymer matrix and substrate fabrication and struc-tural characterization, 2011 Applied Physics A: Materials Scienceand Processing 103 (4), pp. 1117-1123

1539. Savaloni H; Haydari-Nasab F; Malmir M Nano-structural characte-ristics and optical properties of silver chiral nano-�ower sculpturedthin �lms, Appl. Surf. Sci. 257, 9044-9055 2011

1538. Singh, SP; Karmakar, B Single-Step Synthesis and Surface Plas-mons of Bismuth-Coated Spherical to Hexagonal Silver Nanopar-ticles in Dichroic Ag:Bismuth Glass Nanocomposites, Plamonics 6(3): 457-467 2011

1537. Torres-Torres, C; Castro-Chacon, JH; Castaneda, L; Rojo, RR; Torres-Martinez, R; Tamayo-Rivera, L; Khomenko, AV Ultrafast nonlinearoptical response of photoconductive ZnO �lms with �uorine na-noparticles, Optics Express 19 (17): 16346-16355

1536. Albella, P; Saiz, JM; Gonzalez, F; Moreno, F Surface monitoringbased on light scattering by metal nanosensors, J. QuantitativeSpectroscopy & Radiative Transfer 112 (13): 2046-2058 SI 2011

1535. Dowgiallo, AM; Schwartzberg, AM; Knappenberger, KL Structure-Dependent Coherent Acoustic Vibrations of Hollow Gold Nanosp-heres, Nano Lett. 11 (8): 3258-3262 2011

1534. Vorobyev, AY; Guo, CL Re�ection of femtosecond laser light in mul-tipulse ablation of metals, J. Appl. Phys. 110 (4): 10.1063/1.3620898AUG 15 2011

1533. Torres-Torres, C; Tamayo-Rivera, L; Rangel-Rojo, R; Torres-Martinez, R; Silva-Pereyra, HG; Reyes-Esqueda, JA; Rodriguez-Fernandez, L; Crespo-Sosa, A; Cheang-Wong, JC; Oliver, A, Ul-trafast optical phase modulation with metallic nanoparticles inion-implanted bilayer silica, Nanotechnol. 22 (35): 10.1088/0957-4484/22/35/355710 SEP 2 2011


1532. J. S. Sekhon and S. S. Verma, Cu, CuO, and Cu2O nanoparticle plas-mons for enhanced scattering in solar cells, 2011, Optics InfoBaseConference Papers, Optics for Solar Energy, OSE 2011; Austin, TX;United States; 2 November 2011 through 3 November 2011; Code102734.

1531. Wahbeh, M., Alsawa�a, M., Misra, S., Truong, V.-V. Optical proper-ties of two-dimensional and three-dimensional arrays of noblemetal nanoparticles by the discrete dipole approximation met-hod, Proceedings of SPIE - The International Society for OpticalEngineering 8007, art. no. 80071I 2011

1530. Kassab, L.R.P., Freitas, L.F., Assumpcao, T.A.A., Da Silva, D.M., DeAraujo, C.B. Frequency upconversion properties of Ag: TeO2-ZnOnanocomposites codoped with Yb3+ and Tm3+ ions, Applied Phy-sics B: Lasers and Optics 104 (4), pp. 1029-1034 2011

1529. Sekhon, J.S., Verma, S.S. Plasmonics: The future wave of commu-nication, Current Science 101 (4), pp. 484-488 2011

1528. Xing, H., Bu, W., Zhang, S., Zheng, X., Li, M., Chen, F., He, Q., Zhou,L., Peng, W., Hua, Y., Shi, J. Multifunctional nanoprobes for upcon-version �uorescence, MR and CT trimodal imaging, (2012) Bioma-terials, 33 (4) pp. 1079-1089.

1527. Sotiriou, G.A., Pratsinis, S.E. Engineering nanosilver as an antibac-terial, biosensor and bioimaging material, 2011Current Opinion inChemical Engineering 1 (1), pp. 3-10

1526. Tesler, AB; Chuntonov, L; Karakouz, T; Bendikov, TA; Haran, G; Vas-kevich, A; Rubinstein, I Tunable Localized Plasmon Transducers Pre-pared by Thermal Dewetting of Percolated Evaporated Gold Films,J. Phys. Chem. C, 115 (50):24642-24652 2011

1525. Angelescu, D.G., Vasilescu, M., Anastasescu, M., Baratoiu, R., Do-nescu, D., Teodorescu, V.S. Synthesis and association of Ag(0) na-noparticles in aqueous Pluronic F127 triblock copolymer solutions,2012 Colloids and Surfaces A: Physicochemical and EngineeringAspects 394 , pp. 57-66

1524. Yang, L., Liu, H., Ma, Y., Liu, J. Solvent-induced hot spot switch onsilver nanorod enhanced Raman spectroscopy, Analyst 137 (7) ,pp. 1547-1549, 2012

1523. Angelidou, M., Pitris, C. Investigation of nanostructure scatteringand absorption for combined optical diagnostic and therapeuticapplications, Progress in Biomedical Optics and Imaging - Procee-dings of SPIE 8231 , art. no. 823108, 2012

1522. Yang, Y.-Y., Csapo, E., Zhang, Y.-L., Sussmann, F., Stebbings, S.L.,Duan, X.-M., Zhao, Z.-S., (...), Kling, M.F. Optimization of the FieldEnhancement and Spectral Bandwidth of Single and Coupled Bi-metal Core-Shell Nanoparticles for Few-Cycle Laser Applications,Plasmonics 7 (1) , pp. 99-106, 2012

1521. Kubacka, A., Fernandez-Garcıa, M., Colon, G. Advanced nanoar-chitectures for solar photocatalytic applications, (2012) ChemicalReviews, 112 (3) pp. 1555-1614.

1520. Torres-Torres, C., Tamayo-Rivera, L., Rangel-Rojo, R., Torres-Martinez, R., Silva-Pereyra, H.G., Reyes-Esqueda, J.A., Rodriguez-Fernandez, L., Crespo-Sosa, A., Cheang-Wong, J.C., Oliver, A. Ultra-fast optical phase modulation with metallic nanoparticles in ion-implanted bilayer silica, (2011) Nanotechnology, 22 (35), art. no.355710

1519. Morarescu, R., Shen, H., Vallee, R.A.L., Maes, B., Kolaric, B., Dam-man, P. Exploiting the localized surface plasmon modes in goldtriangular nanoparticles for sensing applications, (2012) J. Mate-rials Chemistry, 22 (23) pp. 11537-11542.

1518. DeSantis, CJ; Skrabalak, SE Size-Controlled Synthesis of Au/PdOctopods with High Refractive Index Sensitivity, LANGMUIR, 28(24):9055-9062; 10.1021/la3002509 JUN 19 2012

1517. Campos-Lopez, J.P., Torres-Torres, C., Trejo-Valdez, M., Torres-Torres, D., Urriolagoitia-Sosa, G., Hernandez-Gomez, L.H.,Urriolagoitia-Calderon, G. Optical absorptive response of platinumdoped TiO 2 transparent thin �lms with Au nanoparticles, 2012Materials Science in Semiconductor Processing 15 (4) , pp. 421-427

1516. Liang, A., Liu, Q., Wen, G., Jiang, Z. The surface-plasmon-resonance e�ect of nanogold/silver and its analytical applications,2012, TrAC - Trends in Analytical Chemistry 37 , pp. 32-47.

1515. Miskovsky, N.M., Cutler, P.H., Mayer, A., Weiss, B.L., Willis, B., Su-llivan, T.E., Lerner, P.B. Nanoscale devices for recti�cation of highfrequency radiation from the infrared through the visible: A newapproach, 2012, J. Nanotechnology , art. no. 512379

1514. K. Kolwas, A. Derkachova, Damping rates of surface plasmons forparticles of size from nano- to micrometers; reduction of the non-radiative decay, J. Quantitative Spectroscopy and Radiative Trans-fer 114 , pp. 45-55 (2013)

1513. Verma, S.S., Sekhon, J.S. In�uence of aspect ratio and surroundingmedium on localized surface plasmon resonance (LSPR) of goldnanorod, 2012, J. Optics (India) 41 (2) , pp. 89-93

1512. Xuan, X., Xu, S., Liu, Y., Li, H., Xu, W., Lombardi, J.R. A long-rangesurface plasmon resonance/probe/silver nanoparticle (LRSPR-P-NP) nanoantenna con�guration for surface-enhanced raman scat-tering, 2012, J. Physical Chemistry Letters 3 (19) , pp. 2773-2778

1511. Ramadan, S., Guo, L., Li, Y., Yan, B., Lu, W. —textitHollow coppersul�de nanoparticle-mediated transdermal drug delivery, (2012)Small, 8 (20) pp. 3143-3150.

1510. Rashidian, M; Dorranian, D E�ect of concentration on the plas-monic absorption and optical nonlinearity of gold nanoparticles,: Optical Engineering 51, 089001 (2012)

1509. Perez-Mirabet, L., Surinyach, S., Ros, J., Suades, J., Yanez, R. Goldand silver nanoparticles surface functionalized with rhenium car-bonyl complexes, 2012, Materials Chemistry and Physics 137 (2) ,pp. 439-447


1507. Sotiriou, G.A. Biomedical applications of multifunctional plasmonicnanoparticles, 2013, Wiley Interdisciplinary Reviews: Nanomedici-ne and Nanobiotechnology 5 (1) , pp. 19-30

1506. Lee, K.F., Hayashi, T., Takaya, Y. Structuralization of metal nano-particles by photoinduced aggregation, 2010, 10th InternationalSymposium on Measurement and Quality Control 2010, ISMQC2010 , pp. 366-369

1505. Gao, X., Chen, G., Ning, L. Plasmonic characteristics of nanorod-based metallic nanostructures, 2013, Optics and Laser Technology48 , pp. 394-400

1504. David, C., Connolly, J.P., Chaverri Ramos, C., Garcia De Abajo, F.J.,Sanchez Plaza, G. Theory of random nanoparticle layers in pho-tovoltaic devices applied to self-aggregated metal samples, 2013,Solar Energy Materials and Solar Cells 109 , pp. 294-299

1503. A. Benami, A. Lopez-Suarez, L. Rodriguez-Fernandez, A. Crespo-Sosa, J. C. Cheang-Wong, J. A. Reyes-Esqueda, A. OliverEnhancement and quenching of photoluminescence from si-licon quantum dots by silver nanoparticles in a totallyintegrated con�guration, AIP Advances 2, 012193 (2012);http://dx.doi.org/10.1063/1.3701696

1502. N. Goubet, C. Yan, D. Polli, H. Portales, I. Arfaoui, G. Cerullo,and M.-P. Pileni. Modulating physical properties of isolated andself-assembled nanocrystals through change in nanocrystallinity,Nano Letters pp. 504-508 (2013)


1501. K. Shadak Alee, R. Kuladeep, D. Narayana Rao In-situ investiga-tion of the formation of silver nanoparticles in polyvinyl alcoholthrough micro-Raman spectroscopy, Optics Communications 293, pp. 69-74 (2013)

1500. A. Y. Vorobyev and C. Guo Direct femtosecond laser surfacenano/microstructuring and its applications, Laser and PhotonicsReviews 7 (3) , pp. 385-407, 2013. DOI: 10.1002/lpor.201200017

1499. M. Angelidou and C. Pitris Design of a new nanostructure for thera-nostic applications, In Bioinformatics Bioengineering (BIBE), 2012IEEE 12th International Conference on, pages 240 –244, nov. 2012.

1498. F. Abdi, A. Siabi-Gerjan, and H. Savaloni On the discrete dipoleapproximation investigation of the extinction spectra of ag/glassnano-�ower thin �lm with threefold symmetry, Journal of Theore-tical and Applied Physics 6(1), 2012.

1497. de Freitas, J. N., Nogueira, A. F. (2013). Incorporation of InorganicNanoparticles into Bulk Heterojunction Organic Solar Cells. Na-noenergy: Nanotechnology Applied for Energy Production, 1.

1496. Carvalho, B.G., Fagundes, J., Martin, A.A., Raniero, L., Favero, P.P.DNA nanosensor surface gra�ing and salt dependence, (2013) Pro-gress in Biomedical Optics and Imaging - Proceedings of SPIE,8594, art. no. 85940H

1495. Marın, J. G. (2013). FROM SILVER NANOSTRUCTURES TO GOLD NA-NOSTARS: SYNTHESIS AND CHARACTERIZATION OF TUNABLE PLAS-MONIC MATERIALS.

1494. Bratkovsky, A. M. (2013). Plasmonic Devices for Fast Optoelec-tronics and Enhanced Raman Sensors. Nanoscale Applications forInformation and Energy Systems, 1-40.

1493. Qiu, C., Zhou, H., Cao, B., Sun, L., Yu, T. Raman spectroscopy ofmorphology-controlled deposition of Au on graphene, 2013, Car-bon 59 , pp. 487-494

1492. Leong, E.S.P., Liu, Y.J., Chum, C.C., Teng, J.H. Optical Magnetic Re-sonances in Subwavelength Ag-MgF2-Ag Grating Structures, 2013,Plasmonics 8 (2) , pp. 1221-1226

1491. Liu, L., Jiang, W., Yang, X.-W., Chen, B.-H., Wu, S.-X., Li, F.-S. Facilefabrication of novel magnetic and �uorescent Fe3O4-CdSe nano-composites, (2013) Wuli Huaxue Xuebao/ Acta Physico - ChimicaSinica, 29 (5) pp. 1088-1096.

1490. Zou, XX; Tao, ZM; Asefa, T Semiconductor and Plasmonic Photoca-talysis for Selective Organic Transformations, CURRENT ORGANICCHEMISTRY, 17 (12):1274-1287; JUN 2013

1489. Savaloni, H., Babaei, R. Surface enhanced Raman spectroscopyand structural characterization of Ag/Cu chiral nano-�ower scul-ptured thin �lms, 2013, Applied Surface Science 280 , pp. 439-445

1488. De Lasson, J.R., Mork, J., Kristensen, P.T. Three-dimensional integralequation approach to light scattering, extinction cross sections,local density of states, and quasi-normal modes, 2013, Journalof the Optical Society of America B: Optical Physics 30 (7) , pp.1996-2007

1487. Yang, X.-C., Hou, J.-W., Liu, Y., Cui, M.-M., Lu, W. OPAA template-directed synthesis and optical properties of metal nanocrystals,2013, Nanoscale Research Letters 8 (1) , pp. 1-8


1485. Rao, V.G., Banerjee, C., Mandal, S., Ghosh, S., Sarkar, N. Zwitterionicmicelles as a so� template for the extremely rapid synthesis ofsmall hollow gold nanocontainers, 2013, RSC Advances 3 (35) , pp.14963-14969

1484. Gungor, K., Unal, E., Demir, H.V. Nanoplasmonic surfaces enablingstrong surfacenormal electric �eld enhancement, 2013, Optics Ex-press 21 (20) , pp. 23097-23106

1483. Sturm, S., Rozman, K.Z., Markoli, B., Antonakakis, N.S., Sarantopo-ulou, E., Kollia, Z., Cefalas, A.C., Kobe, S. Pulsed-laser fabricationof gas-�lled hollow Co-Pt nanospheres, 2013, Acta Materialia 61(20) , pp. 7924-7930

1482. Coughlin, AJ; West, JL Gold nanoshells for imaging and photot-hermal ablation of cancer, Editor(s): Webster TJ, NANOMEDICINE:TECHNOLOGIES AND APPLICATIONS, (49):326-355; 2012 Book Se-ries: Woodhead Publishing Series in Biomaterials

1481. Liu, A., Ren, Q., Zhao, M., Xu, T., Yuan, M., Zhao, T., Tang, W. Photo-voltaic performance enhancement of CdS quantum dot-sensitizedTiO 2 photoanodes with plasmonic gold nanoparticles, 2014, Jour-nal of Alloys and Compounds 589 , pp. 218-225

1480. Campardelli, R., Della Porta, G., Gomez, L., Irusta, S., Reverchon, E.,Santamaria, J., Au-PLA nanocomposites for photothermally con-trolled drug delivery, 2014, Journal of Materials Chemistry B 2 (4), pp. 409-417


1478. Goel, S., Chen, F., Cai, W. Synthesis and biomedical applications ofcopper sul�de nanoparticles: From sensors to theranostics, Small,Volume 10, Issue 4, 26 February 2014, Pages 631-645

1477. Yang, LK; Li, ZP; Wang, PJ; Zhang, LS; Fang, Y Optical Properties ofNoncontinuous Gold Shell Engineered on Silica Mesosphere, PLAS-MONICS, 9 (1):121-127; 10.1007/s11468-013-9604-0 FEB 2014

1476. Faucheaux, J.A.a, Fu, J.ad, Jain, P.K. Uni�ed theoretical frameworkfor realizing diverse regimes of strong coupling between plasmonsand electronic transitions, J Phys Chem C 118 (5), 2014, 2710-2717

1475. Alee, K.S. , Rao, D.N. Time-dependent micro-Raman scattering stu-dies of polyvinyl alcohol and silver nitrate thin �lms, Pramana -Journal of Physics, Volume 82, Issue 2, February 2014, Pages 425-431

1474. Kawada, S., Saeki, D., Matsuyama, H. Development of ultra�ltra-tion membrane by stacking of silver nanoparticles stabilized withoppositely charged polyelectrolytes, Colloids and Surfaces A: Phy-sicochemical and Engineering Aspects 451, Issue 1, 1 June 2014,Pages 33-37

1473. Chopra, N. Roadmap to nanoscale heterostructures: From single-component nanowires axially heterostructured , en Nanowires:Properties, Synthesis and Applications 2011, Pages 171-202

1472. Faucheaux, J.A., Stanton, A.L.D., Jain, P.K Plasmon resonances ofsemiconductor nanocrystals: Physical principles and new oppor-tunities, Journal of Physical Chemistry Letters, Volume 5, Issue 6,20 March 2014, Pages 976-985

1471. Ma, W. , Chen, F. Experimental and theoretical studies on the in-teraction between isonicotinic acid molecules and silver nanoclus-ters, Spectroscopy Letters 47, Issue 10, 26 November 2014, Pages754-760

1470. Rajesh, D; Sunandana, CS Structural and Optical Evaluation of Pris-tine and Partially Iodized Ag Thin Films, Editor(s): Giri PK; GoswamiDK; Perumal A, ADVANCED NANOMATERIALS AND NANOTECHNO-LOGY, 143 271-278;10.1007/978-3-642-34216-5-28 2013

1469. Gao, X., Esteves, R.J., Luong, T.T.H., Jaini, R., Arachchige, I.U.Oxidation-induced self-assembly of Ag nanoshells into transpa-rent and opaque Ag hydrogels and aerogels, Journal of the Ame-rican Chemical Society 136, June 2014, Pages 7993-8002

1468. Alisafaee, H., Fiddy, M.A. Dedicated nanoantenna elements for ver-tical nanorods in plasmonic photovoltaics, Proceedings of SPIE -The International Society for Optical Engineering Volume 8981,2014, Article number 89811H Physics, Simulation, and PhotonicEngineering of Photovoltaic Devices III; San Francisco, CA; UnitedStates; 3 February 2014 through 6 February 2014; Code 105326


1467. Kasture, S., Ravishankar, A.P., Yallapragada, V.J., Patil, R., Valappil,N.V., Mulay, G., Achanta, V.G. Plasmonic quasicrystals with broad-band transmission enhancement, Scienti�c Reports 4, 11 June 2014,Article number 5257

1466. Yenchalwar, S.G., Reddydevarapalli, R., Deshmukh, A.B., Shel-ke, M.V. Plasmon-enhanced photocurrent generation from click-chemically modi�ed graphene, Chemistry - A European Journal20, Issue 24, 10 June 2014, Pages 7402-7409

1465. Kannan, P., Los, M., Los, J.M., Niedziolka-Jonsson, J. T7 bacteriop-hage induced changes of gold nanoparticle morphology: Biopoly-mer capped gold nanoparticles as versatile probes for sensitiveplasmonic biosensors, Analyst 139, Issue 14, 21 July 2014, Pages3563-3571

1464. Tira, C., Tira, D., Simon, T., Astilean, S. Finite-Di�erence Time-Domain (FDTD) design of gold nanoparticle chains with speci�csurface plasmon resonance , Journal of Molecular Structure Volu-me 1072, Issue 1, 25 August 2014, Pages 137-143

1463. Forcherio, G.T., Blake, P., Dejarnette, D., Roper, D.K. Nanoring struc-ture, spacing, and local dielectric sensitivity for plasmonic reso-nances in Fano resonant square lattices, Optics Express Volume22, Issue 15, 41848, Pages 17791-17803



1460. Xu, J., Chen, Z., Zapien, J.A., Lee, C.-S., Zhang, W. Surface engi-neering of ZnO nanostructures for semiconductor-sensitized solarcells, Advanced Materials Volume 26, Issue 31, 20 August 2014,Pages 5337-5367

1459. Reza Dousti, M Plasmonic e�ect of silver nanoparticles on the up-conversion emissions of Sm3+-doped sodium-borosilicate glass,Measurement: Journal of the International Measurement Confede-ration Volume 56, October 2014, Pages 117-120

1458. Marocico, C.A., Zhang, X., Bradley, A.L. Spectral overlap depen-dence of enhanced energy transfer near small Au nanoparticles,International Conference on Transparent Optical Networks 2014,Article number 6876459 16th International Conference on Trans-parent Optical Networks, ICTON 2014; Graz; Austria; 6 July 2014 th-rough 10 July 2014; Category numberCFP14485-USB; Code 107209

1457. Zalevsky, Z; Abdulhalim, I Plasmonics, INTEGRATED NANOPHOTO-NIC DEVICES, 2ND EDITION, 179-245; 10.1016/B978-0-323-22862-6.00006-2 2014

1456. Alisafaee, H., Fiddy, M.A. Nanoantennas for nanowire photovol-taics, Applied Physics Letters Volume 105, Issue 11, 15 September2014, Article number 113107

1455. Almendral Parra, M.J., Paradinas, S.S. Spectroscopic Techniques Ba-sedon the Use of Gold Nanoparticles, Comprehensive AnalyticalChemistry Volume 66, 2014, Pages 477-527

1454. Chen, LX; Wang, YQ; Fu, XL; Chen, L Colorimetric Nanoprobes, BookAuthor(s): Chen, L (Chen, L); Wang, Y (Wang, Y); Fu, X (Fu, X); Chen, L(Chen, L) NOVEL OPTICAL NANOPROBES FOR CHEMICAL AND BIO-LOGICAL ANALYSIS, 9-48; 10.1007/978-3-662-43624-0-2 2014

1453. Mashayekh, M; Dorranian, D Size-dependent nonlinear opticalproperties and thermal lens in silver nanoparticles, OPTIK, 125(19):5612-5617; 10.1016/j.ijleo.2014.07.066 2014

1452. Caldwell, A.H., Ha, D.-H., Ding, X., Robinson, R.D. Analytical mo-deling of localized surface plasmon resonance in heterostructurecopper sul�de nanocrystals, Journal of Chemical Physics Volume141, Issue 16, 28 October 2014, Article number 164125

1451. Wunscher, S., Abbel, R., Perelaer, J., Schubert, U.S. Progress of alter-native sintering approaches of inkjet-printed metal inks and theirapplication for manufacturing of �exible electronic devices, Jour-nal of Materials Chemistry C Volume 2, Issue 48, 28 December2014, Pages 10232-10261

1450. Amiri, O., Salavati-Niasari, M., Ra�ei, A., Farangi, M. 147 % Impro-ved e�ciency of dye synthesized solar cells by using CdS QDs,Au nanorods and Au nanoparticles , RSC Advances Volume 4, Issue107, 2014, Pages 62356-62361

1449. Chadha, T.S., Park, J., An, W.J., Biswas, P. Gold nanocage coupledsingle crystal TiO2 nanostructures for near-infrared water pho-tolysis, Journal of Nanoparticle Research Volume 16, Issue 11, 2014,9p

1448. Moiseev, S.G., Ostatochnikov, V.A., Sementsov, D.I. In�uence of sizee�ects on the optical characteristics of a one-dimensional photo-nic crystal with a nanocomposite defect, JETP Letters Volume 100,Issue 6, 4 December 2014, Pages 371-375

1447. Liu, L., Dao, T.D., Kodiyath, R., Kang, Q., Abe, H., Nagao, T., Ye,J. Plasmonic janus-composite photocatalyst comprising Au and C-TiO2 for enhanced aerobic oxidation over a broad visible-lightrange, Advanced Functional Materials Volume 24, Issue 48, 23 De-cember 2014, Pages 7754-7762

1446. Moutet, P., Sangeetha, N.M., Ressier, L., Vilar-Vidal, N., ComesaOa-Hermo, M., Ravaine, S., VallEe, R.A.L., Gabudean, A.M., Astilean, S.,Farcau, C Surface-enhanced spectroscopy on plasmonic oligomersassembled by AFM nanoxerography, Nanoscale Volume 7, Issue 5,7 February 2015, Pages 2009-2022

1445. Farooqi, Z.H., Khan, S.R., Begum, R., Kanwal, F., Sharif, A., Ahmed,E., Majeed, S., Ijaz, K., Ijaz, A. E�ect of acrylic acid feed contentsof microgels on catalytic activity of silver nanoparticles fabricatedhybrid microgels, Turkish Journal of Chemistry Volume 39, Issue1, 2015, Pages 96-107

1444. Gromov, DG; Savitskiy, AI; Pavlova, LM; Borgardt, NI; Grishina, YS;Dubkov, SV; Trifonov, AY Formation of gold and silver cluster arraysusing vacuum-thermal evaporation on a non-heated substrate,2014 Source of the DocumentProceedings of SPIE - The Internatio-nal Society for Optical Engineering 9440, 94400E

1443. Goubet, N., Tempra, I., Yang, J., (...), Cerullo, G., Pileni, M.P. Size andnanocrystallinity controlled gold nanocrystals: Synthesis, electro-nic and mechanical properties, 2015 Nanoscale 7 (7), pp. 3237-3246

1442. Vorobyev, A.Y., Guo, C. Multifunctional surfaces produced by fem-tosecond laser pulses, 2015 Journal of Applied Physics 117 (3),033103

1441. Bouhadoun, S., Guillard, C., Dapozze, F., (...), Boucle, J., Herlin-Boime, N. One step synthesis of N-doped and Au-loaded TiO2 na-noparticles by laser pyrolysis: Application in photocatalysis, 2015Applied Catalysis B: Environmental 174-175, pp. 367-375

1440. Pileni, M.P. Nano-supracrystallinity, 2015 EPL 109 (5), 58001

1439. Gromov, D.G., Pavlova, L.M., Savitsky, A.I., Trifonov, A.Y. Nucleationand growth of Ag nanoparticles on amorphous carbon surfacefrom vapor phase formed by vacuum evaporation, 2014 AppliedPhysics A: Materials Science and Processing 118 (4), pp. 1297-1303

1438. Messina, E., Donato, M.G., Zimbone, M., (...), Gucciardi, P.G., Ma-rago, O.M. Optical trapping of silver nanoplatelets, 2015 OpticsExpress 23 (7), pp. 8720-8730

1437. Zhou, J., Wang, Z., Li, Q., (...), Wei, Y., You, J. Hybridized doxorubicin-Au nanospheres exhibit enhanced near-infrared surface plasmonabsorption for photothermal therapy applications, 2015 Nanoscale7 (13), pp. 5869-5883


1436. Doosthosseini, F; Behjat, A; Hashemizadeh, S; Torabi, N Applicationof silver nanoparticles as an interfacial layer in cadmium sul�dequantum dot sensitized solar cells, JOURNAL OF NANOPHOTONICS,9 10.1117/1.JNP.9.093092 FEB 17 2015

1435. Abdolghaderi, S., Sha�ekhani, A. E�ect of deposition time on struc-ture of silver nanoparticles embedded in diamond-like carbon ma-trix made by RF-PECVD method, 2015 Iranian Journal of PhysicsResearch 14 (4), pp. 225-229

1434. Yu, H., Jiang, S., Wu, D. E�cient surface plasmon ampli�cation ingain-assisted silver nanotubes and associated dimers, 2015 Jour-nal of Applied Physics 117 (15), 153101

1433. De Freitas, J.N., Nogueira, A.F. Incorporation of inorganic nano-particles into bulk heterojunction organic solar cells, 2012 (BookChapter) Nanoenergy: Nanotechnology Applied for Energy Pro-ductionpp. 1-47

1432. Gong, X., Tang, J., Ji, Y., Wu, B., Wu, H., Liu, A. Adjustable plas-monic optical properties of hollow gold nanospheres monolayersand LSPR-dependent surface-enhanced Raman scattering of ho-llow gold nanosphere/graphene oxide hybrids, 2015 RSC Advan-ces

1431. Chen, J., Kang, Z., Lu, H., (...), Chen, N.-K., Ho, H.-P. Photochemi-cally synthesized silver nanostructures on tapered �ber as plas-monic tweezers for surface enhanced Raman scattering applica-tions, 2015 Vacuum 118, pp. 171-176

1430. Strong, L.E., West, J.L. Optically modulated cancer therapeutic de-livery: Past, present and future, 2015 Therapeutic Delivery 6 (5),pp. 147-160

1429. Miskovsky, N.M., Cutler, P.H., Lerner, P.B., (...), Weisel, G.J., Sullivan,T.E. Nanoscale rectennas with sharp tips for absorption and rec-ti�cation of optical radiation (Book Chapter) 2014 Rectenna SolarCellspp. 135-161

1428. Ye, L., Guo, J., Jiang, L., Dai, X. Enhanced and controllable nonli-near e�ects in composite with aligned gold spheroid arrays, 2015Journal of Nonlinear Optical Physics and Materials 24 (1), 1550013

1427. Ji, A., Sharma, R., Pathak, H., Pathak, N.K., Sharma, R.P. Numericalsimulation of plasmonic light trapping in thin-�lm Si solar cells:Surface coverage e�ect, 2015 Journal of Physics D: Applied Physics48 (27), 275101

1426. Shulyatev, A.S., Machnev, A.A., Gromov, D.G., (...), Mitrokhin, V.P.,Mel?nikov, I.V. Anomalous transmission of disordered arrays ofsilver nanoclusters in the near- and mid-IR regions, 2015 TechnicalPhysics Letters 41 (5), pp. 425-428

1425. Shrivas, K., Shankar, R., Dewangan, K. Gold nanoparticles as alocalized surface plasmon resonance based chemical sensor foron-site colorimetric detection of arsenic in water samples, 2015Sensors and Actuators, B: Chemical 220, pp. 1376-1383

1424. Fateixa, S., Nogueira, H.I.S., Trindade, T. Hybrid nanostructuresfor SERS: Materials development and chemical detection, PhysicalChemistry Chemical Physics Volume 17, Issue 33, 20 April 2015,Pages 21046-21071

1423. Bhatia, P., Consiglio, J., Diniz, J., (...), Ritz-Schubert, S., Terrill, R.H.Onset of intense surface enhanced raman scattering and aggre-gation in the Au at Ag system, 2015 Journal of Spectroscopy 2015,676748

1422. Lu, P; Li, J; Wang, D; Wan, LJ Si@Cu@Au AFM tips for tip-enhancedRaman spectrum, SCIENCE CHINA-CHEMISTRY, 58 (9):1494-1500;10.1007/s11426-015-5353-6 SEP 2015

1421. Li, N., Tian, X., Zhang, W., (...), Li, G., Zhang, Z. Double Fano re-sonances in a planar pseudo-dolmen structure, 2015 Sensors andActuators, A: Physical 234, pp. 346-350

1420. Ambaye, C.S., Zhang, G. The enhancement of local electric �eldand far�eld optical response of nanometallic shells, 2015 Optik126 (19), pp. 1894-1897

1419. Vlcek, J., Otipka, P., Lesnak, M., Vavra, I. E�ective medium appro-ximation of anisotropic materials with radiative correction, 2015Proceedings of SPIE - The International Society for Optical Engi-neering 9502, 950217

1418. Zimbone, M., Messina, E., Compagnini, G., Fragala, M.E., Calcagno,L. Resonant depolarized dynamic light scattering of silver nano-platelets, 2015 Journal of Nanoparticle Research 17 (10), 402

1417. Ren, QQ; Bai, LY; Zhang, XS; Ma, ZY; Liu, B; Zhao, YD; Cao, YC Prepa-ration, Modi�cation, and Application of Hollow Gold Nanospheres,JOURNAL OF NANOMATERIALS, 10.1155/2015/534070 2015

1416. Ghambari, T., Dorranian, D. Measurement of third-order nonlinearsusceptibility of Au nanoparticles doped PVA �lm, 2015 Optics andSpectroscopy (English translation of Optika i Spektroskopiya) 119(5), pp. 838-848

1415. Marocico, C.A., Zhang, X., Bradley, A.L. A theoretical investigationof the in�uence of gold nanosphere size on the decay and energytransfer rates and e�ciencies of quantum emitters, 2016 SJournalof Chemical Physics 144 (2), 024108

1414. Ustarroz, J., Hubin, A., Terryn, H. Supported nanoparticle synthesisby electrochemical deposition, 2015, Handbook of Nanoparticlespp. 603-631 180

1413. Shrivas, K., Sahu, S., Ghorai, A., Shankar, R. Gold nanoparticles-based colorimetric determination of cationic surfactants in envi-ronmental water samples via both electrostatic and hydrophobicinteractions, 2016 Microchimica Acta 183 (2), pp. 827-836

1412. Shrivas, K., Sahu, S., Patra, G.K., Jaiswal, N.K., Shankar, R. Locali-zed surface plasmon resonance of silver nanoparticles for sensiti-ve colorimetric detection of chromium in surface water, industrialwaste water and vegetable samples, 2016 Analytical Methods 8(9), pp. 2088-2096

1411. Savariraj, A.D., Kim, H.-J., Viswanathan, K.K., Vijaykumar, M., Pra-bakar, K. Growth mechanisms and origin of localized surface plas-mon resonance coupled exciton e�ects in Cu2-xS thin �lms, 2016RSC Advances 6 (23), pp. 19034-19040

1410. Eugenio, M., Muller, N., Frases, S., (...), De Souza, W., SantAnna,C. Yeast-derived biosynthesis of silver/silver chloride nanoparti-cles and their antiproliferative activity against bacteria, 2016 RSCAdvances 6 (12) 9893-9904

1409. Amiri, O; Salavati-Niasari, M; Bagheri, S; Youse�, AT EnhancedDSSCs e�ciency via Cooperate co-absorbance (CdS QDs) andplasmonic core-shell nanoparticle (Ag at PVP), SCIENTIFIC RE-PORTS, 6 10.1038/srep25227 MAY 4 2016

1408. King, S.R., Shimmon, S., Gentle, A.R., (...), Dowd, A., McDonagh, A.M.Remarkable thermal stability of gold nanoparticles functionalisedwith ruthenium phthalocyanine complexes, 2016 Nanotechnology27 (21), 215702

1407. Li, WQ; Xiao, XH; Dai, ZG; Wu, W; Cheng, L; Mei, F; Zhang, XG; Jiang,CZ Fabrication of highly homogeneous surface-enhanced Ramanscattering substrates using Ag ion implantation, 2016 Journal ofPhysics Condensed Matter 28 (25), 254003

1406. Carrillo-Torres, R.C., Garcia-Soto, M.J., Morales-Chavez, S.D., (...),Barboza-Flores, M., Alvarez-Ramos, M.E. Hollow Au-Ag bimetallicnanoparticles with high photothermal stability, 2016 RSC Advances6 (47), 41304.

1405. Derkachova, A; Kolwas, K; Demchenko, I Dielectric Function forGold in Plasmonics Applications: Size Dependence of Plasmon Re-sonance Frequencies and Damping Rates for Nanospheres, PLAS-MONICS, 11 (3):941-951; 10.1007/s11468-015-0128-7 JUN 2016


1404. Fragal, V.H., Cellet, T.S.P., Pereira, G.M., (...), Rubira, A.F., Silva, R.Covalently-layers of PVA and PAA and in situ formed Ag nanoparti-cles as versatile antimicrobial surfaces, 2016 International Journalof Biological Macromolecules 91, pp. 329-337

1403. Baseggio, O., De Vetta, M., Fronzoni, G., (...), Fortunelli, A., Calzo-lari, A. Photoabsorption of Icosahedral Noble Metal Clusters: AnE�cient TDDFT Approach to Large-Scale Systems, 2016 Journal ofPhysical Chemistry C 120 (23), pp. 12773-12782

1402. Ashkarran, AA; Daemi, S Tuning the Plasmon of Metallic Nanos-tructures: From Silver Nanocubes Toward Gold Nanoboxes, PLAS-MONICS, 11 (4):1011-1017; 10.1007/s11468-015-0136-7 AUG 2016

1401. Wu, S; Deng, Z; Liu, JQ; Zhang, KY; Yu, LZ; Zhu, YY Multiple out-of-plane plasmonic resonances in thick metallic rod with a cavity,JOURNAL OF PHYSICS D-APPLIED PHYSICS, 49 (25):10.1088/0022-3727/49/25/25LT01 JUN 29 2016

1400. Kassab, L.R.P., Silva, D.M., Garcia, J.A.M., da Silva, D.S., de Arau-jo, C.B. Silver nanoparticles enhanced photoluminescence of Nd3+doped germanate glasses at 1064 nm, 2016 Optical Materials 60,pp. 25-29

1399. Carletti, L., Locatelli, A., Neshev, D., De Angelis, C. Shaping the Ra-diation Pattern of Second-Harmonic Generation from AlGaAs Die-lectric Nanoantennas, 2016 ACS Photonics 3 (8), pp. 1500-1507

1398. Takagai, Y., Miura, R., Endo, A., Hinze, W.L. One-pot synthesis with:In situ preconcentration of spherical monodispersed gold nanopar-ticles using thermoresponsive 3-(alkyldimethylammonio)-propylsulfate zwitterionic surfactants, 2016 Chemical Communications 52(65), pp. 10000-10003

1397. Fiorenza, R., Bellardita, M., DUrso, L., (...), Palmisano, L., Scire,S. Au/TiO2-CeO2 catalysts for photocatalytic water splitting andVOCs oxidation reactions, 2016 Catalysts 6 (8), 121

1396. Supriyono, Krisnandi, Y.K., Gunlazuardi, J. Electrodeposition ofgold nanoparticles on mesoporous TiO2 photoelectrode to enhan-ce visible region photocurrent, 2016 AIP Conference Proceedings1729, 020049

1395. Schopf, C; Noonan, E; Quinn, AJ; Iacopino, D Self-Assembly of GoldNanocrystals into Discrete Coupled Plasmonic Structures, CRYS-TALS, 6 (9):10.3390/cryst6090117 SEP 2016

1394. Aliabadi, M. One-step synthesis of highly e�cient TiO2-CdS-Agnanocomposite for remove organic pollution, 2017 Separation andPuri�cation Technology 174, pp. 145-149

1393. David, C., Christensen, J., Mortensen, N.A. Spatial dispersion intwo-dimensional plasmonic crystals: Large blueshi�s promoted bydi�raction anomalies, 2016 Physical Review B 94 (16), 165410

1392. Schopf, C., Noonan, E., Quinn, A.J., Iacopino, D. Self-assembly ofgold nanocrystals into discrete coupled plasmonic structures, 2016Crystals 6 (9), 117

1391. Shrivas, K., Maji, P., Dewangan, K. Onsite-detection of barium andnickel from river, pond and tap water samples using gold nano-particles as a chemical sensor, 2017 Spectrochimica Acta - Part A:Molecular and Biomolecular Spectroscopy 173, pp. 630-636

1390. Dousti, MR; Amjad, RJ Plasmon Assisted Luminescence in RareEarth Doped Glasses, REVIEWS IN PLASMONICS 2015, 2015 339-386; Book Series: Reviews in Plasmonics

1389. Grasseschi, D., Toma, H.E. The SERS e�ect in coordination che-mistry, 2017 Coordination Chemistry Reviews 333, pp. 108-131

1388. Aziz, S.M., Sahar, M.R., Ghoshal, S.K. A basic insight on structu-ral modi�cation of manganese oxide nanoparticles included bo-rotellurite glass with europium impurities, 2017 Journal of Non-Crystalline Solids 456, pp. 33-39

1387. Fu, J., Liang, H., Zhang, J., (...), Zhang, Z., Lin, X. Enhanced opticalabsorbance and fabrication of periodic arrays on nickel surfaceusing nanosecond laser, 2017 Optics Communications 389, pp.170-175

1386. Dayem, A.A., Hossain, M.K., Lee, S.B., (...), Choi, H.Y., Cho, S.-G. Therole of reactive oxygen species (ROS) in the biological activitiesof metallic nanoparticles, 2017 International Journal of MolecularSciences 18 (1), 120TIPO B (6):

1385. Rozanova, N; Zhang, JZ Photothermal ablation therapy for cancerbased on metal nanostructures, Science in China series B- Che-mistry 52, 1559 (2009)

1384. JZ Zhang Biomedical Applications of Shape-Controlled PlasmonicNanostructures: A Case Study of Hollow Gold Nanospheres for Pho-tothermal Ablation Therapy of Cancer, J. Phys. Chem. Lett. 1, 686(2010) (Perspective).

1383. Preciado-Flores, S., Wang, D., Wheeler, D.A., Newhouse, R., Hensel,J.K., Schwartzberg, A., Wang, L., Zhu, J., Barboza-Flores, M., Zhang,J.Z. Highly reproducible synthesis of hollow gold nanospheres withnear infrared surface plasmon absorption using PVP as stabilizingagent, (2011) J. Materials Chemistry, 21 (7) pp. 2344-2350.

1382. Liu, LP; Wang, GM; Li, Y; Li, YD; Zhang, JZ CdSe quantum dot-sensitized Au/TiO2 hybrid mesoporous �lms and their enhancedphotoelectrochemical performance, Nano Res. 4 (3): 249-258 MAR2011

1381. C. D. Geddes, R. Newhouse, and J. Zhang Optical Properties andApplications of Shape-Controlled Metal Nanostructures Reviews inPlasmonics, volume 2010. Springer New York, 2012.

1380. Adams, S., Zhang, J.Z. Unique optical properties and applicationsof hollow gold nanospheres (HGNs), 2016 Coordination ChemistryReviews 320-321, pp. 18-37

ARTICULO (citas 163):Optically active nanoparticles, Cecilia Noguez, I.L. Garzon, ChemSoc Rev 38, 757 – 771 (2009)

TIPO A (161):

1379. Si, S; Gautier, C; Boudon, J; Taras, R; Gladiali, S; Buergi, T, LigandExchange on Au-25 Cluster with Chiral Thiols, J. Phys. Chem. C 11312966 (2009)

1378. Nakashima, T., Kobayashi, Y., Kawai, T., Optical activity and chiralmemory of thiol-capped CdTe nanocrystals, J. Am. Chem. Soc. 13110342 (2009)

1377. Mori K, Kondo Y, Yamashita H, Synthesis and characterization ofFePd magnetic nanoparticles modi�ed with chiral BINAP ligand asa recoverable catalyst vehicle for the asymmetric coupling reac-tion, Phys. Chem. Chem. Phys. 11, 8949 (2009)

1376. H Yao, N Nishida, K Kimura, Conformational study of chiral peni-cillamine ligand on optically active silver nanoclusters with IR andVCD spectroscopy, Chemical Physics 368, 28 (2010)

1375. Batista, R.J.C., Mazzoni, M.S.C., Chacham, H., First-principles in-vestigation of electrochemical properties of gold nanoparticles,Nanotechnology 21, art. no. 065705 (2010)

1374. J F McGilp, Probing surface and interface structure using optics, J.Phys.: Condens. Matter 22, 084018 (2010).

1373. J George, K. G Thomas Surface Plasmon Coupled Circular Di-chroism of Au Nanoparticles on Peptide Nanotubes, J. Am. Chem.Soc. 132, 2502 (2010)

1372. Imada H, Ohta M, Yamamoto N Atom-Resolved Luminescence ofSi(111)-7x7 Induced by Scanning Tunneling Microscopy, Appl. Phys.Express 3, 045701 (2010)


1371. Zhou, Y., Yang, M., Sun, K., Tang, Z., Kotov, N.A. Similar topologicalorigin of chiral centers in organic and nanoscale inorganic struc-tures: E�ect of stabilizer chirality on optical isomerism and growthof cdte nanocrystals, 2010 J. the American Chemical Society 132(17), pp. 6006-6013

1370. Xiang, H., Wei, S.-H., Gong, X. Structures of [Ag7(SR)4]- and [Ag7(DMSA)4]- , 2010 J. the American Chemical Society 132 (21), pp.7355-7360

1369. Nan, J., Yan, X.-P. Facile fabrication of chiral hybrid organic-inorganic nanomaterial with large optical activity for selective andsensitive detection of trace Hg 2+, 2010 Chemical Communications46 (24), pp. 4396-4398

1368. Lopez-Acevedo, O; Tsunoyama, H; Tsukuda, T; Hakkinen, H; Ai-kens, CM Chirality and electronic structure of the thiolate-protectedAu38 nanocluster, J. the American Chemical Society 132, 8210(2010)

1367. Shukla, N., Bartel, M.A., Gellman, A.J. Enantioselective separationon chiral Au nanoparticles, 2010 J. the American Chemical Society132 (25), pp. 8575-8580

1366. P Barbaro, V Dal Santo, F Liguori, Emerging strategies in sustaina-ble �ne-chemical synthesis: asymmetric catalysis by metal nano-particles, Dalton Trans., Dalton Transactions 39 (36): 8391-84022010

1365. Toma, H.E., Zamarion, V.M., Toma, S.H., Araki, K. The coordinationchemistry at gold nanoparticles J. the Brazilian Chemical Society21, 1158 (2010)

1364. Kang, YJ; Oh, JW; Kim, YR; Kim, JS; Kim, H Chiral gold nanoparticle-based electrochemical sensor for enantioselective recognition of3,4-dihydroxyphenylalanine, Chem. Comm. 46 (31): 5665-56672010

1363. Gautier, C; Burgi, T Vibrational Circular Dichroism of Adsorbed Mo-lecules: BINAS on Gold Nanoparticles, J. Phys. Chem. C 114 (38):15897-15902 SEP 30 2010

1362. Molotsky, T; Tamarin, T; Ben Moshe, A; Markovich, G; Kotlyar, ABSynthesis of Chiral Silver Clusters on a DNA Template, J. Phys.Chem. C 114 (38): 15951-15954 SEP 30 2010

1361. Bochicchio, D; Ferrando, R Size-Dependent Transition to High-Symmetry Chiral Structures in AgCu, AgCo, AgNi, and AuNi Na-noalloys, Nano Lett. 10 (10): 4211-4216 OCT 2010

1360. Andreiadis, E.S., Vitale, M.R., Mezailles, N., Le Go�, X., Le Floch,P., Toullec, P.Y., Michelet, V. Chiral undecagold clusters: Synthe-sis, characterization and investigation in catalysis, (2010) DaltonTransactions, 39 (44) pp. 10608-10616.

1359. Mori, K., Yamashita, H. Progress in design and architecture of metalnanoparticles for catalytic applications, (2010) Physical ChemistryChemical Physics, 12 (43) pp. 14420-14432.

1358. Grasseschi, D; Zamarion, VM; Araki, K; Toma, HE Surface EnhancedRaman Scattering Spot Tests: A New Insight on Feigl’s AnalysisUsing Gold Nanoparticles, Analytical Chem. 82 (22): 9146-9149NOV 15 2010

1357. Nakamura, M., Araki, K., Toma, H.E. Probing magnetic and goldnanoparticles by using MAClevers as ultrasensitive sensors, (2010)Nanoscale, 2 (12) pp. 2583-2586.

1356. S Labouille, A Escalle-Lewis, Y Jean, N Mezailles, P Le?Floch Mecha-nism of the Dehydrogenative Silylation of Alcohols Catalyzed byCationic Gold Complexes: An Experimental and Theoretical Study,Chemistry - A European J. 17, Issue 7, February 11, 2011, Pages:2256–2265,

1355. Mori K, Yamashita H Design of Colloidal and Supported Metal Na-noparticles: Their Synthesis, Characterization, and Catalytic Appli-cation, J. Japan Petroleum Institute 54, 1–14 JAN 2011

1354. Graf, P; Mantion, A; Haase, A; Thunemann, AF; Masic, A; Meier,W; Luch, A; Taubert, A Silici�cation of Peptide-Coated SilverNanoparticles-A Biomimetic So� Chemistry Approach toward Chi-ral Hybrid Core-Shell Materials, ACS Nano 5 (2): 820-833 FEB 2011

1353. Zhang, M; Ye, BC Colorimetric Chiral Recognition of Enantio-mers Using the Nucleotide-Capped Silver Nanoparticles, AnalyticalChem. 83 (5): 1504-1509 MAR 1 2011

1352. Xia, YH; Zhou, YL; Tang, ZY Chiral inorganic nanoparticles: origin,optical properties and bioapplications, Nanoscale 3 (4): 1374-13822011

1351. Qi, H; Shopsowitz, KE; Hamad, WY; MacLachlan, MJ Chiral NematicAssemblies of Silver Nanoparticles in Mesoporous Silica Thin Films,J. Am. Chem. Soc. 133 (11): 3728-3731 MAR 23 2011

1350. Baranov, D; Kadnikova, EN Synthesis and characterization ofazidoalkyl-functionalized gold nanoparticles as sca�olds forclick”-chemistry derivatization, J. Material Chem. 21 (17): 6152-61572011

1349. Scida, K., Stege, P.W., Haby, G., Messina, G.A., Garcıa, C.D. Recentapplications of carbon-based nanomaterials in analytical che-mistry: Critical review, 2011 Analytica Chimica Acta 691 (1-2), pp.6-17

1348. Auguie, B; Alonso-Gomez, JL; Guerrero-Martinez, A; Liz-Marzan,LM Fingers Crossed: Optical Activity of a Chiral Dimer of PlasmonicNanorods, J. Phys. Chem. Lett. 2 (8): 846-851 APR 21 2011

1347. Train, C; Gruselle, M; Verdaguer, M The fruitful introduction of chi-rality and control of absolute con�gurations in molecular magnets,Chem. Soc. Rev. 40 (6): 3297-3312 2011

1346. Hendler, N; Fadeev, L; Mentovich, ED; Belgorodsky, B; Gozin, M;Richter, S Bio-inspired synthesis of chiral silver nanoparticles inmucin glycoprotein-the natural choice, Chem. Comm. 47 (26):7419-7421 2011

1345. Morton, S.M., Silverstein, D.W., Jensen, L. Theoretical studies ofplasmonics using electronic structure methods, 2011 Chemical Re-views 111 (6), pp. 3962-3994

1344. Nishida, N; Miyashita, A; Hashimoto, N; Murayama, H; Tanaka, HRegenerative synthesis of copper nanoparticles by photoirradia-tion, Europena Phys. J. D 63 (2): 307-310 2011

1343. Guerrero-Martinez, A; Alonso-Gomez, JL; Auguie, B; Cid, MM; Liz-Marzan, LM From individual to collective chirality in metal nano-particles, Nano Today 6 (4): 381-400 2011

1342. Wang, RY; Wang, HL; Wu, XC; Ji, YL; Wang, P; Qu, Y; Chung, TS Chi-ral assembly of gold nanorods with collective plasmonic circulardichroism response, So� Matter 7 (18): 8370-8375 2011

1341. Scida K; Stege P W.; Haby G, Messina, GA, Garcia, CD Recent ap-plications of carbon-based nanomaterials in analytical chemistry:Critical review, Analytica Chimica Acta 691 6-17 2011

1340. Pandoli, O; Massi, A; Cavazzini, A, Spada, GP, Cui, DX Circular di-chroism and UV-Vis absorption spectroscopic monitoring of pro-duction of chiral silver nanoparticles templated by guanosine 5’-monophosphate, Analyst 136, 3713-3719 2011

1339. Zhu, M., Qian, H., Meng, X., Jin, S., Wu, Z., Jin, R. Chiral Au(25)nanospheres and nanorods: Synthesis and insight into the originof chirality, Nano Letters 11 (9), pp. 3963-3969 2011

1338. Rodriguez, J.I., Autschbach, J., Castillo-Alvarado, F.L., Baltazar-Mendez, M.I. Size evolution study of molecular and atom-in-clusterpolarizabilities of medium-size gold clusters, J. Chemical Physics135 (3), art. no. 034109 2011

1337. Le Guennic, B., Autschbach, J [Pt@Pb12]2- A challenging systemfor relativistic density functional theory calculations of 195Pt and207Pb NMR parameters, Canadian J. Chemistry 89 (7), pp. 814-821


1336. Forster, M., Dyer, M.S., Persson, M., Raval, R. Tailoring homochira-lity at surfaces: Going beyond molecular handedness, J. the Ame-rican Chemical Society 133 (40), pp. 15992-16000 2011

1335. Jiang, D.-E. Staple �tness: A concept to understand and predict thestructures of thiolated gold nanoclusters, Chemistry - A EuropeanJournal 17 (44), pp. 12289-12293, 2011

1334. Qian, HF; Zhu, MZ; Gayathri, C; Gil, RR; Jin, RC Chirality in Gold Na-noclusters Probed by NMR Spectroscopy, ACS NANO 5 (11): 8935-8942 2011

1333. Zhou, Y., Zhu, Z., Huang, W., Liu, W., Wu, S., Liu, X., Gao, Y., Zang,W., Tang, Z. Optical coupling between chiral biomolecules and se-miconductor nanoparticles: Size-dependent circular dichroism ab-sorption 2011 Angewandte Chemie - International Edition 50 (48),pp. 11456-11459

1332. Mantion, A; Graf, P; Florea, I; Haase, A; Thunemann, AF; Masic,A; Ersen, O; Rabu, P; Meier, W; Luch, A; Taubert, A Biomimeticsynthesis of chiral erbium-doped silver/peptide/silica core-shellnanoparticles (ESPN), Nanoscale, 3 (12):5168-5179; 2011

1331. Yao, H., Kitaoka, N., Sasaki, A. Chemical transformation of chiralmonolayer-protected gold clusters: Observation of ligand size ef-fects on optical and chiroptical responses, Nanoscale 4 (3) , pp.955-963, 2012

1330. Yao, H; Saeki, M; Sasaki, A Boronic Acid-Protected Gold ClustersCapable of Asymmetric Induction: Spectral Deconvolution Analysisof Their Electronic Absorption and Magnetic Circular Dichroism,Langmuir, 28 (8):3995-4002; 10.1021/la204731a FEB 28 2012

1329. Zhao, Y., Xu, L., Kuang, H., Wang, L., Xu, C. Asymmetric and sym-metric PCR of gold nanoparticles: A pathway to scaled-up self-assembly with tunable chirality, J. Materials Chemistry 22 (12) ,pp. 5574-5580, 2012

1328. Tsukuda, T. Toward an atomic-level understanding of size-speci�cproperties of protected and stabilized gold clusters, Bulletin of theChemical Society of Japan 85 (2) , pp. 151-168, 2012

1327. Hakkinen, H The gold-sulfur interface at the nanoscale, NatureChem., 4 (6):443-455; 10.1038/NCHEM.1352 JUN 2012

1326. Persechini, L., McGilp, J.F. Chiral second-harmonic generation fromsmall organic molecules at surfaces, (2012) Physica Status Solidi(B) Basic Research, 249 (6) pp. 1155-1159.

1325. Liu, HL; Ye, YJ; Chen, J; Lin, DY; Jiang, Z; Liu, ZJ; Sun, B; Yang, LB;Liu, JH In Situ Photoreduced Silver Nanoparticles on Cysteine: AnInsight into the Origin of Chirality, Chemistry-A European J., 18(26):8037-8041; 10.1002/chem.201200397 JUN 2012

1324. Bochicchio, D; Ferrando, R Structure and thermal stabi-lity of AgCu chiral nanoparticles, European Phys J. D, 66(5):10.1140/epjd/e2012-30054-0 MAY 2012

1323. An, Z., Yamaguchi, M. Chiral recognition in aggregation of goldnanoparticles gra�ed with helicenes, 2012, Chemical Communica-tions 48 (59) , pp. 7383-7385

1322. Kumar, S., Jin, R. Water-soluble Au 25(Capt) 18 nanoclusters: Synt-hesis, thermal stability, and optical properties, 2012, Nanoscale 4(14) , pp. 4222-4227

1321. Srivastava, A. K.; Yadev, Rishikesh; Rai, V.; Ganguly, T N; Deb,SK Surface Plasmon Resonance in Gold Nanoparticles, Soli Sa-tate Phys, PTS 1 AND 2 Book Series: AIP Conference ProceedingsVolume: 1447 Pages: 305-306 DOI: 10.1063/1.4710001 2012

1320. Xie, J., Duan, Y., Che, S., Chirality of metal nanoparticles in chiralmesoporous silica, 2012, Advanced Functional Materials 22 (18) ,pp. 3784-3792

1319. Yan, W., Xu, L., Xu, C., Ma, W., Kuang, H., Wang, L., Kotov, N.A. Self-assembly of chiral nanoparticle pyramids with strong R/S opticalactivity, 2012, J. the American Chemical Society 134 (36) , pp. 15114-15121

1318. Berta, M., Loppinet, B., Vlassopoulos, D., Askounis, A., Koutsos, V.,Pastoriza-Santos, I., Liz-Marzan, L.M. Tailoring the properties ofgra�ed silver nanoprism composites, 2012, Polymer (United King-dom) 53 (25) , pp. 5771-5778

1317. Maoz, BM; van der Weegen, R; Fan, ZY; Govorov, AO; Ellestad,G; Berova, N; Meijer, EW; Markovich, G Plasmonic ChiropticalResponse of Silver Nanoparticles Interacting with Chiral Supra-molecular Assemblies, J. Am. Chem. Soc., 134 (42):17807-17813;10.1021/ja309016k OCT 24 2012

1316. Hakkinen, H Ligand-Protected Gold Nanoclusters as Superatoms-Insights from Theory and Computations, Editor(s): JohnstonRL; Wilcoxon JP, Metal Nanopart. and Nanoalloys, 3 129-157;10.1016/B978-0-08-096357-0.00004-2 2012, in Frontiers of Na-noscience

1315. Johnston, RL Metal Nanoparticles and Nanoalloys, Editor(s): Johns-ton RL; Wilcoxon JP, in Metal Nanopart. and Nanoalloys, 3 1-42;10.1016/B978-0-08-096357-0.00006-6 2012, Frontiers of Nanos-cience

1314. Xie, JJ; Che, SA Chirality of Anisotropic Metal Nanowires with aDistinct Multihelix, Chemistry-A European J., 18 (50):15954-15959;10.1002/chem.201203017 DEC 2012

1313. Ock, K.-S., Dembereldorj, U., Park, J., Ganbold, E.-O., Kim, S., Shin,H.-C., Joo, S.-W. Temperature-dependent structural change of D-penicillamine-capped chiral gold nanoparticles investigated by in-frared spectroscopy, 2013, Spectrochimica Acta - Part A: Molecularand Biomolecular Spectroscopy 102 , pp. 419-424

1312. Artemyev, M., Krutokhvostov, R., Melnikau, D., Oleinikov, V., Sukha-nova, A., Nabiev, I. Low-�eld magnetic circular dichroism in silverand gold colloidal nanoparticles of di�erent sizes, shapes, andaggregation states, 2012, Proceedings of SPIE - The InternationalSociety for Optical Engineering 8457 , art. no. 845729

1311. Zeng, T., Zhang, X.-L., Niu, H.-Y., Ma, Y.-R., Li, W.-H., Cai, Y.-Q. In si-tu growth of gold nanoparticles onto polydopamine-encapsulatedmagnetic microspheres for catalytic reduction of nitrobenzene,2013, Applied Catalysis B: Environmental 134-135 , pp. 26-33

1310. X Yang, L Gan, L Han, D Li, J Wang, E Wang Facile preparation ofchiral penicillamine protected gold nanoclusters and their appli-cations in cell imaging, Chem Comm 49 (23):2302-2304 2013

1309. Matczyszyn, K; Olesiak-Banska, J DNA as sca�olding for nanop-hotonic structures, J Nanophotonics, 6 10.1117/1.JNP.6.064505 SEP4 2012

1308. Wang, Y; Xu, J; Wang, YW; Chen, HY Emerging chirality in nanos-cience, CHEMICAL SOCIETY REVIEWS, 42 (7):2930-2962; 2013

1307. Wang, P; Chen, L; Wang, RY; Ji, YL; Zhai, DW; Wu, XC; Liu, Y; Chen,KQ; Xu, HX Giant optical activity from the radiative electromagneticinteractions in plasmonic nanoantennas, 2013, Nanoscale 5 (9) ,pp. 3889-3894

1306. Valev, V.K., Baumberg, J.J., Sibilia, C., Verbiest, T. Chirality and chi-roptical e�ects in plasmonic nanostructures: Fundamentals, recentprogress, and outlook, 2013, Advanced Materials 25 (18) , pp. 2517-2534

1305. Shen, X., Asenjo-Garcia, A., Liu, Q., Jiang, Q., Garcıa De Abajo,F.J., Liu, N., Ding, B. Three-dimensional plasmonic chiral tetramersassembled by DNA origami, 2013, Nano Letters 13 (5) , pp. 2128-2133

1304. Nergiz, S.Z., Slocik, J.M., Naik, R.R., Singamaneni, S. Surface de-fect sites facilitate �brillation: An insight into adsorption of gold-binding peptides on Au(111), 2013, Physical Chemistry ChemicalPhysics 15 (28) , pp. 11629-11633

1303. Liu, W., Zhu, Z., Deng, K., Li, Z., Zhou, Y., Qiu, H., Gao, Y., (...), Tang,Z. Gold nanorod at Chiral mesoporous silica core-shell nanoparti-cles with unique optical properties, 2013, Journal of the AmericanChemical Society 135 (26) , pp. 9659-9664


1302. Fan, Z., Zhang, H., Govorov, A.O. Optical properties of chiral plas-monic tetramers: Circular dichroism and multipole e�ects, 2013,Journal of Physical Chemistry C 117 (28) , pp. 14770-1477

1301. Xu, L., Hao, C., Yin, H., Liu, L., Ma, W., Wang, L., Kuang, H., Xu,C. Plasmonic core-satellites nanostructures with high chirality andbioproperty, 2013, Journal of Physical Chemistry Letters 4 (14) ,pp. 2379-2384

1300. Cao, T., Jin, S., Wang, S., Zhang, D., Meng, X., Zhu, M. A compari-son of the chiral counterion, solvent, and ligand used to induce achiroptical response from Au25 - nanoclusters, 2013, Nanoscale 5(16) , pp. 7589-7595

1299. Gonzalez-Campo, A., Amabilino, D.B. Biomolecules at interfaces:Chiral, naturally, 2013, Topics in Current Chemistry 333 , pp. 109-156

1298. Kuang, H., Chen, X., Hao, C., Ma, W., Xu, L., Xu, C. Immuno-drivenplasmonic oligomer sensor for the ultrasensitive detection of an-tibiotics, 2013, RSC Advances 3 (38) , pp. 17294-17299

1297. Yan, W., Ma, W., Kuang, H., Liu, L., Wang, L., Xu, L., Xu, C. Plasmonicchirogenesis from gold nanoparticles superstructures, 2013, Jour-nal of Physical Chemistry C 117 (34) , pp. 17757-17765

1296. Song, C., Liu, X., Liu, D., Ren, C., Yang, W., Deng, J. Optically activeparticles of chiral polymers, 2013, Macromolecular Rapid Commu-nications 34 (18) , pp. 1426-1445

1295. Ben-Moshe, A., Maoz, B.M., Govorov, A.O., Markovich, G. Chiralityand chiroptical e�ects in inorganic nanocrystal systems with plas-mon and exciton resonances, 2013, Chemical Society Reviews 42(16) , pp. 7028-7041

1294. Koktan, J., Rezanka, P., Matejka, P., Kral, V. Stanoveni pomeru enan-tiomeru L- a D-cysteinu pomoci nanocastic stribra — [Determina-tion of the ratio of enantiomers L-and D-cysteine using silver na-noparticles], 2013, Chemicke Listy 107 (SPEC. ISSUE 2) , pp. s240-s242

1293. Yang, Y., Pei, X.-L., Wang, Q.-M. Postclustering dynamic covalentmodi�cation for chirality control and chiral sensing, 2013, Journalof the American Chemical Society 135 (43) , pp. 16184-16191

1292. Siddiqui, A.A., Lakhtakia, A. Debye-H¸ckel solution for steadyelectro-osmotic �ow of micropolar �uid in cylindrical microcapi-llary, 2013, Applied Mathematics and Mechanics (English Edition)34 (11) , pp. 1305-1326

1291. Pedicini, A.F., Reber, A.C., Khanna, S.N. The e�ect of sulfur covalentbonding on the electronic shells of silver clusters, 2013, Journal ofChemical Physics 139 (16) , art. no. 164317

1290. Larsen, G.K., He, Y., Ingram, W., Zhao, Y. Hidden chirality in super-�cially racemic patchy silver �lms, 2013, Nano Letters 13 (12) , pp.6228-6232

1289. Sinha, B; Goswami, T; Paul, S; Misra, A The impact of surfacestructure and band gap on the optoelectronic properties of Cu2Onanoclusters of varying size and symmetry, RSC ADVANCES, 4(10):5092-5104; 10.1039/c3ra45387a 2014

1288. Zhang, L., Xu, C., Liu, C., Li, B. Visual chiral recognition of tryptop-han enantiomers using unmodi�ed gold nanoparticles as colori-metric probes, 2014, Analytica Chimica Acta 809 , pp. 123-127

1287. Yasukawa, T., Miyamura, H., Kobayashi, S. Chiral metalnanoparticle-catalyzed asymmetric C-C bond formation reactions,Chemical Society Reviews 43 (5), 2014, Pages 1450-1461

1286. Qian, HF Thiolate-protected Au-38(SR)(24) nanocluster: size-focusing synthesis, structure determination, intrinsic chirality, andbeyond, PURE AND APPLIED CHEMISTRY, 86 (1):27-37; 10.1515/pac-2014-5011 JAN 2014

1285. Heister, P., Lunskens, T., ThAmer, M., Kartouzian, A., Gerlach, S.aVerbiest, T., Heiz, U. Orientational changes of supported chiral2,2-dihydroxy-1, 1binaphthyl molecules, Physical Chemistry Che-mical Physics Volume 16, Issue 16, 28 April 2014, Pages 7299-7306

1284. Wang, XS; Wang, Y; Zhu, JR; Xu, Y Hierarchical AgNR at Cys at AuNPsHelical Core-Satellite Nanostructure: Shape-Dependent Assemblyand Chiroptical Response, JOURNAL OF PHYSICAL CHEMISTRY C, 118(11):5782-5788; 10.1021/jp410620b MAR 20 2014

1283. Lin, Y., Ding, Y., Jiang, X. Preparation and theranostic applicationsof polymer-inorganic hybrid nanospheres, Progress in Chemistry,Volume 26, Issue 2-3, March 2014, Pages 450-457

1282. Wang, Z., Zhai, S. , Zhai, B., Xiao, Z., An, Q. Preparation and ca-talytic properties of nano-Au catalytic materials based on the re-duction of 4-nitrophenol, Progress in Chemistry, Volume 26, Issue2-3, March 2014, Pages 234-247

1281. Knoppe, S., Burgi, T. Chirality in thiolate-protected gold clusters,Accounts of Chemical Research, Volume 47, Issue 4, 15 April 2014,Pages 1318-1326

1280. Zhang, L., Wang, E. Metal nanoclusters: New �uorescent probes forsensors and bioimaging, Nano Today, Volume 9, Issue 1, February2014, Pages 132-157

1279. Hao, C., Xu, L., Ma, W., Wang, L., Kuang, H. , Xu, C. Assembled plas-monic asymmetric heterodimers with tailorable chiroptical respon-se, Small Volume 10, Issue 9, 14 May 2014, Pages 1805-1812

1278. Qian, H. Thiolate-protected Au38(SR)24 nanocluster: Size-focusingsynthesis, structure determination, intrinsic chirality, and beyond,Pure and Applied Chemistry Volume 86, Issue 1, 22 January 2014,Pages 27-37

1277. Wang, X., Fu, J. , Wang, M., Wang, Y., Chen, Z., Zhang, J., Chen, J., Xu,Q. Facile synthesis of Au nanoparticles supported on polyphosp-hazene functionalized carbon nanotubes for catalytic reduction of4-nitrophenol, Journal of Materials Science Volume 49, Issue 14,July 2014, Pages 5056-5065

1276. Caricato, M., Sharma, A.K., Coluccini, C., Pasini, D. Nanostructuringwith chirality: Binaphthyl-based synthons for the production offunctional oriented nanomaterials, Nanoscale 6, Issue 13, 7 July2014, Pages 7165-7174

1275. Wang, Z.-G., Ding, B. Engineering DNA self-assemblies as templa-tes for functional nanostructures, Accounts of Chemical Research47, Issue 6, 17 June 2014, Pages 1654-1662

1274. Cai, H., Wang, C., Li, B., Li, Y., Yang, Y Preparation and characte-rization of single-handed twisted platinum tubular nanoribbons,Materials Letters Volume 133, 15 October 2014, Pages 147-150

1273. Liu, H., Shen, X., Wang, Z.-G., Kuzyk, A., Ding, B. Helical nanostruc-tures based on DNA self-assembly, Nanoscale Volume 6, Issue 16,21 August 2014, Pages 9331-9338

1272. Liu, C., Li, B. , Xu, C. Colorimetric chiral discrimination and deter-mination of enantiometric excess of D/L-tryptophan using silvernanoparticles, Microchimica Acta Volume 181, Issue 11-12, August2014, Pages 1407-1413

1271. Polavarapu, L., Perez-Juste, J., Xu, Q.-H., Liz-Marzan, L.M. Opticalsensing of biological, chemical and ionic species through aggre-gation of plasmonic nanoparticles, Journal of Materials ChemistryC Volume 2, Issue 36, 28 September 2014, Pages 7460-7476

1270. Nishida, N. , Kojima, Y., Tanaka, H. Intense plasmon-induced cottone�ects in colloidal silver triangular nanoplates synthesized by aligand-exchange process, Chemistry Letters Volume 43, Issue 8,2014, Pages 1227-1229

1269. Manzoor, D., Pal, S. Enhanced interaction of molecular oxygen withamino acid complexes of silver and gold clusters, Indian Journal ofChemistry - Section A Inorganic, Physical, Theoretical and Analyti-cal Chemistry Volume 53, Issue 8-9, August-September 2014, Pa-ges 996-1000


1268. Malola, S., Lehtovaara, L., Hakkinen, H TDDFT analysis of opti-cal properties of thiol monolayer-protected gold and intermetallicsilver-gold Au144(SR)60 and Au 84Ag60(SR)60 clusters, Journal ofPhysical Chemistry C Volume 118, Issue 34, August 28, 2014, Pages20002-20008

1267. Agnes, M., Sorrenti, A., Pasini, D., Wurst, K., Amabilino, D.B. Crys-tal structure analyses facilitate understanding of synthesis proto-cols in the preparation of 6,6?-dibromo-substituted BINOL com-pounds, CrystEngCommVolume 16, Issue 43, 21 November 2014,Pages 10131-10138

1266. Barrabes, N. , Zhang, B., Burgi, T. Racemization of chiralPd2Au36(SC2H4Ph)24: Doping increases the �exibility of the clus-ter surface, Journal of the American Chemical Society Volume 136,Issue 41, 15 October 2014, Pages 14361-14364

1265. Shukla, N., Ondeck, N., Gellman, A.J. Quantitation of enantiospe-ci�c adsorption on chiral nanoparticles from optical rotation, Sur-face Science Volume 629, November 2014, Pages 15-19

1264. Schlesinger, M., Giese, M., Blusch, L.K., Hamad, W.Y., Maclachlan,M.J. Chiral nematic cellulose-gold nanoparticle composites frommesoporous photonic cellulose, Chemical Communications Volume51, Issue 3, 11 January 2015, Pages 530-533

1263. Shi, L., Li, B., Wu, L. Polyoxometalates as inorganic chiral ligandsfor the synthesis of chiral nanoparticles, Chemical Communica-tions Volume 51, Issue 1, 4 January 2015, Pages 172-175

1262. Sharma, A., Mori, T., Lee, H.-C., Worden, M., Bidwell, E., Hegmann,T. Detecting, visualizing, and measuring gold nanoparticle chiralityusing helical pitch measurements in nematic liquid crystal phases,ACS Nano Volume 8, Issue 12, 23 December 2014, Pages 11966-11976

1261. Wang, M., Fu, J., Chen, Z., Wang, X., Xu, Q. In situ growth of goldnanoparticles onto polyphosphazene microspheres with amino-groups for alcohol oxidation in aqueous solutions, Materials Let-ters 143, pp. 201-204 (2015)

1260. Persechini, L., Mcgilp, J.F. Probing chiral monolayers of cysteineon Au(110) using re�ection anisotropy spectroscopy and second-harmonic generation, Physica Status Solidi (B) Basic Research Vo-lume 252, Issue 1, 1 January 2015, Pages 95-99

1259. Annadhasan, M., Kasthuri, J., Rajendiran, N. Green synthesis ofgold nanoparticles under sunlight irradiation and their colorimetricdetection of Ni2+ and Co2+ ions, RSC Advances Volume 5, Issue 15,2015, Pages 11458-11468

1258. Koktan, J., Sedlackova, H., Osante, I., Cativiela, C., Diaz Diaz, D.,Rezanka, P. Chiral supramolecular nanoparticles: The study of chi-ral surface modi�cation of silver nanoparticles by cysteine andits derivatives, Colloids and Surfaces A: Physicochemical and En-gineering Aspects Volume 470, April 01, 2015, Pages 142-148

1257. Islam, DA; Borah, D; Acharya, H Controlled synthesis of mono-disperse silver nanoparticles supported layered double hydroxidecatalyst, RSC ADVANCES, 5 (17):13239-13245; 10.1039/c4ra14286a2015

1256. Li, J; Li, HY; Hu, HF; Zhao, Y; Wang, Q Preparation and applica-tion of polymer nano-�ber doped with nano-particles, OPTICALMATERIALS, 40 49-56; 10.1016/j.optmat.2014.11.045 FEB 2015

1255. Giese, M., Blusch, L.K., Khan, M.K., MacLachlan, M.J. Functional ma-terials from cellulose-derived liquid-crystal templates, 2015 Ange-wandte Chemie - International Edition 54 (10), pp. 2888-2910

1254. Zhou, P., Shi, R., Yao, J.-F., Sheng, C.-F., Li, H. Supramolecular self-assembly of nucleotide-metal coordination complexes: From sim-ple molecules to nanomaterials, 2015 Coordination Chemistry Re-views 292, pp. 107-143

1253. Gellman, AJ; Tysoe, WT; Zaera, F Surface Chemistry forEnantioselective Catalysis, CATALYSIS LETTERS, 145 (1):220-232;10.1007/s10562-014-1400-8 JAN 2015

1252. Shukla, N; Ondeck, N; Khosla, N; Klara, S; Petti, A; Gellman, A Po-larimetric Detection of Enantioselective Adsorption by Chiral AuNanoparticles - E�ects of Temperature, Wavelength and Size, NA-NOMATERIALS AND NANOTECHNOLOGY, 5 10.5772/60109 JAN 272015

1251. Zhou, P., Shi, R., Yao, J.-F., Sheng, C.-F., Li, H. Supramolecular self-assembly of nucleotide-metal coordination complexes: From sim-ple molecules to nanomaterials, 2015 Coordination Chemistry Re-views 292, pp. 107-143

1250. Dolamic, I., Varnholt, B., Burgi, T. Chirality transfer from gold nano-cluster to adsorbate evidenced by vibrational circular dichroism,2015 Nature Communications 6, 7117

1249. J.F., Severino, P., Souto, S.B., Souto, E.B. Nanomedicines for immu-nization and vaccines, 2013 (Book Chapter) Patenting Nanomedi-cines: Legal Aspects, Intellectual Property and Grant Opportunitiespp. 435-450

1248. De Freitas, J.N., Nogueira, A.F. Incorporation of inorganic nano-particles into bulk heterojunction organic solar cells, 2012 (BookChapter) Nanoenergy: Nanotechnology Applied for Energy Pro-ductionpp. 1-47

1247. Fernando, A; Dimuthu, KL; Weerawardene, M; Karimova, NV; Ai-kens, CM Quantum Mechanical Studies of Large Metal, Metal Oxi-de, and Metal Chalcogenide Nanoparticles and Clusters, CHEMICALREVIEWS, 115 (12):6112-6216; SI 10.1021/cr500506r JUN 24 2015

1246. Guo, Y., Zhao, X., Long, T., (...), Liu, Z., Huang, C. Histidine-mediatedsynthesis of chiral �uorescence gold nanoclusters: Insight into theorigin of nanoscale chirality, 2015 RSC Advances 5 (75), pp. 61449-61454

1245. Wang, Z., Xu, C., Li, X., Liu, Z. In situ green synthesis of Ag na-noparticles on tea polyphenols-modi�ed graphene and their ca-talytic reduction activity of 4-nitrophenol, Colloids and Surfaces A:Physicochemical and Engineering Aspects 485, 20151, pp. 102-110

1244. Cheng, G., Di, J., Wang, Y. Chiroptical study of Metal atsemiconductor-molecule composites: Interaction between cystei-ne and Ag at Ag 3PO4 core-shell hybrid nanorods, 2015 Journalof Physical Chemistry C 119 (38), pp. 22122-22130

1243. Hao, C., Xu, L., Ma, W., (...), Kuang, H., Xu, C. Unusual CircularlyPolarized Photocatalytic Activity in Nanogapped Gold-Silver Chi-roplasmonic Nanostructures, 2015 Advanced Functional Materials25 (36), pp. 5816-5822

1242. Barcaro, G; Sementa, L; Fortunelli, A; Stener, M Optical proper-ties of nanoalloys, PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 17(42):27952-27967; 1 2015

1241. Bouri, M., Salghi, R., Zougagh, M., Rios, A. Enantioselective discri-mination of menthone enantiomers by using achiral liquid chro-matography with circular dichroism detection and penicillamine-coated gold nanoparticles, 2016 Microchemical Journal 124, pp.736-742

1240. Tian, XR; Fang, YR; Sun, MT Formation of Enhanced Uniform ChiralFields in Symmetric Dimer Nanostructures, SCIENTIFIC REPORTS, 510.1038/srep17534 DEC 1 2015

1239. Cao, YY; Che, SA Optically Active Chiral DNA-Silica Hybrid Free-Standing Films, CHEMISTRY OF MATERIALS, 27 (23):7844-7851;10.1021/acs.chemmater.5b02647 DEC 8 2015

1238. Suzuki, N; Wang, YC; Elvati, P; Qu, ZB; Kim, K; Jiang, S; Baumeis-ter, E; Lee, J; Yeom, B; Bahng, JH; Lee, J; Violi, A; Kotov, NA ChiralGraphene Quantum Dots, ACS NANO, 10 (2):1744-1755; 10.1021/acs-nano.5b06369 FEB 2016


1237. Dubarle-O�ner, J., Moussa, J., Amouri, H., (...), Bouteiller, L., Raynal,M. Induced Circular Dichroism in Phosphine Gold(I) Aryl AcetylideUrea Complexes through Hydrogen-Bonded Chiral Co-Assemblies,2016 Chemistry - A European Journal 22 (12), pp. 3985-3990

1236. Nishimura, R., Yasutake, R., Yamada, S., (...), Nakahodo, T., Fujihara,H. Chiral metal nanoparticles encapsulated by a chiral phosphinecavitand with the tetrakis-BINAP moiety: Their remarkable stabilitytoward ligand exchange and thermal racemization, 2016 DaltonTransactions 45 (11), pp. 4486-4490

1235. Tashkhourian, J., Afsharinejad, M., Zolghadr, A.R. Colorimetric chi-ral discrimination and determination of S-citalopram based on in-duced aggregation of gold nanoparticles, 2016 Sensors and Ac-tuators, B: Chemical 232, pp. 52-59

1234. He, X; Wang, YC; Jiang, H; Zhao, L Structurally Well-De�nedSigmoidal Gold Clusters: Probing the Correlation between Me-tal Atom Arrangement and Chiroptical Response, JOURNALOF THE AMERICAN CHEMICAL SOCIETY, 138 (17):5634-5643;10.1021/jacs.6b01658 MAY 4 2016

1233. Long, TF; Guo, YJ; Lin, M; Yuan, MK; Liu, ZD; Huang, CZ Opticallyactive red-emitting Cu nanoclusters originating from complexa-tion and redox reaction between copper(II) and D/L-penicillamine,NANOSCALE, 8 (18):9764-9770; 10.1039/c6nr01492e 2016

1232. Hakkinen, H Electronic Structure: Shell Structure and the Super-atom Concept, PROTECTED METAL CLUSTERS: FROM FUNDAMEN-TALS TO APPLICATIONS, 9 189-222; 10.1016/B978-0-08-100086-1.00008-7 2015, Book Series: Frontiers of Nanoscience

1231. Ni, TW; Tofanelli, MA; Ackerson, CJ Structure Determination by Sin-gle Crystal X-ray Crystallography, PROTECTED METAL CLUSTERS:FROM FUNDAMENTALS TO APPLICATIONS, 9 103-125; 10.1016/B978-0-08-100086-1.00005-1 2015, Book Series: Frontiers of Nanos-cience

1230. Fan, Z., Zhang, H., Schreiber, R., (...), Gun’ko, Y.K., Govorov, A.O.Chiral nanostructures with plasmon and exciton resonances, (BookChapter) 2014 in Singular and Chiral Nanoplasmonics pp. 1-55

1229. Jin, R., Zeng, C., Zhou, M., Chen, Y. Atomically Precise ColloidalMetal Nanoclusters and Nanoparticles: Fundamentals and Oppor-tunities, 2016 Chemical Reviews 116 (18), pp. 10346-10413

1228. Mori, T., Sharma, A., Hegmann, T. Signi�cant enhancement of thechiral correlation length in nematic liquid crystals by gold nano-particle surfaces featuring axially chiral binaphthyl ligands, 2016ACS Nano 10 (1), pp. 1552-1564

1227. Yan, JZ; Su, HF; Yang, HY; Hu, CY; Malola, S; Lin, SC; Teo, BK;Hakkinen, H; Zheng, NF Asymmetric Synthesis of Chiral Bime-tallic [Ag28Cu12(SR)(24)](4-) Nanoclusters via Ion Pairing, JOUR-NAL OF THE AMERICAN CHEMICAL SOCIETY, 138 (39):12751-12754;10.1021/jacs.6b08100 OCT 5 2016

1226. Kumar, J., Thomas, K.G., Liz-Marzan, L.M. Nanoscale chirality inmetal and semiconductor nanoparticles, 2016 Chemical Commu-nications 52 (85), pp. 12555-12569

1225. Yao, H. Chiral ligand-protected gold nanoclusters: Considering theoptical activity from a viewpoint of ligand dissymmetric �eld, 2016Progress in Natural Science: Materials International 26 (5), pp. 428-439

1224. Liang, Zhumei; Bernardino, Kalil; Han, Jishu; et al. Optical aniso-tropy and sign reversal in layer-by-layer assembled �lms fromchiral nanoparticles, FARADAY DISCUSSIONS Volume: 191 Pages:141-157

1223. Ferrando, R. Optical properties of nanoalloys, 2016 Frontiers ofNanoscience 10, pp. 267-287

1222. Schaferling, M. Chiroptical spectroscopy, 2017 Springer Series inOptical Sciences 205, pp. 43-60

1221. Takano, S., Tsukuda, T. Ampli�cation of the Optical Activity of GoldClusters by the Proximity of BINAP, 2016 Journal of Physical Che-mistry Letters 7 (22), pp. 4509-4513

1220. Grasseschi, D., Toma, H.E. The SERS e�ect in coordination che-mistry, 2017 Coordination Chemistry Reviews 333, pp. 108-131

1219. Yao, H; Shiratsu, T Improving the Quality of Electrophoretically-fractionated Chiral Au-38(SG)(24) Nanoclusters through a StepwisePhase-transfer Extraction Process: An Absorption and CD Spectros-copic Study, CHEMISTRY LETTERS, 46 (1):104-107; 2017TIPO B (2):

1218. Molina, B., Sanchez-Castillo, A., Knoppe, S., Garzon, I.L., Burgi,T., Tlahuice-Flores, A. Structures and chiroptical properties of theBINAS-monosubstituted Au 38(SCH3)24 cluster, 2013, Nanoscale 5(22) , pp. 10956-10962

1217. Pelayo, J.J., Whetten, R.L., Garzon, I.L. Geometric Quanti�cationof Chirality in Ligand-Protected Metal Clusters, 2015 Journal ofPhysical Chemistry C 119 (51), pp. 28666-28678

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1215. Lin, Z.; Orlov, A.; Lambert, R. M.; Payne, M. C.; New Insights into theOrigin of Visible Light Photocatalytic Activity of Nitrogen-Dopedand Oxygen-De�cient Anatase TiO2, J. Phys. Chem. B (2005) 109,20948

1214. A Babapour, O Akhavan, R Azimirad and A Z Moshfegh, Physicalcharacteristics of heat-treated nano-silvers dispersed in sol–gelsilica matrix, Nanotechnology 17, 763 (2006)

1213. Railing Chang and P. T. Leung , Nonlocal e�ects on optical andmolecular interactions with metallic nanoshells, Phys. Rev. B 73,125438 (2006).

1212. Kooij, ES; Poelsema, B; Shape and size e�ects in the optical proper-ties of metallic nanorods, Phys Chem Chem Phys 8, 3349 (2006)

1211. Wohlrab, S.; Weiss, M.; Du, H.; Kaskel, S.; Synthesis of MNbO3 Na-noparticles (M = Li, Na, K), Chem. Mater. (2006) 18, 4227

1210. Yin, G; Wang, SY; Xu, M; Chen, LY; Theoretical calculation of theoptical properties of gold nanoparticles, J of Korean Phys Society49, 2108 (2006)

1209. G. Mattei, P. Mazzoldi, M. L. Post, D. Buso, M. Guglielmi, A. Mar-tucci, Cookie-like Au/NiO Nanoparticles with Optical Gas-SensingProperties Advanced Materials 19, 561 (2007)

1208. Nishida, N.; Yao, H.; Ueda, T.; Sasaki, A.; Kimura, K. Synthesis andChiroptical Study of D/L-Penicillamine-Capped Silver Nanoclusters,Chemistry of Materials 19, 2831 (2007)

1207. A. Azarian, A. Iraji zad and A. Dolati, An optical study of cobaltnanowires dispersed in liquid phase, Optics Communications 274,471 (2007)

1206. Jayabalan, J., Singh, A., Chari, R., Oak, S.M., Ultrafast third-ordernonlinearity of silver nanospheres and nanodiscs, Nanotechno-logy 18 art. no. 315704 (2007).

1205. Ovchinnikov, V., Priimagi, A., Anisotropic plasmon resonance ofsurface metallic nanostructures prepared by ion beam mixing,First International Conference on Quantum, Nano, and Micro Tech-nologies, ICQNM 2007, art. no. 4076996.


1204. J Toudert, D Babonneau, S Camelio, T Girardeau, F Yubero, J P Es-pinos and A R Gonzalez-Elipe, Using ion beams to tune the nanos-tructure and optical response of co-deposited Ag : BN thin �lms, J.Phys. D: Appl. Phys. 40, (2007) 4614

1203. V.V. Klimov and D.V. Guzatov, Pasmonic atoms and plasmonic mo-lecules, Journal Applied Physics A: Materials Science & Processing,89, 305 (2007)

1202. Ye, X.; Zhou, Y.; Chen, J.; Sun, Y. Synthesis and infrared emissi-vity study of collagen-g-PMMA/Ag at TiO2 composite, MaterialsChemistry & Physics 106, 447 (2007)

1201. Keiko Munechika, Jessica M. Smith, Yeechi Chen, and David S. Gin-ger, Plasmon Line Widths of Single Silver Nanoprisms as a Functionof Particle Size and Plasmon Peak Position, J. Phys. Chem. C 111,18906 (2007)

1200. J Toudert, D Babonneau, L Simonot, S Camelio and T Girardeau,Quantitative modelling of the surface plasmon resonances of me-tal nanoclusters sandwiched between dielectric layers: the in�uen-ce of nanocluster size, shape and organization, Nanotechnology19, 125709 (2008)

1199. Kebin Li, Liviu Clime, Bo Cui and Teodor Veres, Surface enhancedRaman scattering on long-range ordered noble-metal nanocres-cent arrays Nanotechnology 19 ,145305 (2008)



1196. Kim SW, Hui BJ, Bae DS; Anomalous absorption of isolated silvernanoparticulate �lms in visible region of electromagnetic �eld, Jof Nanoscience & Nanotechnology 8, 739 (2008)

1195. D Barreca, A. Gasparotto, C Maccato, E Tondello, Silica-sandwichedAu nanoparticle arrays by a so� PE-CVD/RF sputtering approach,Nanotechnology 19, 255602 (2008)

1194. Gnanavel, M., Sunandana, C.S.; Optics of triangular Mie particles inultrathin Ag �lms, Proceedings of SPIE - The International Societyfor Optical Engineering 6901, art. no. 69011E

1193. O. Pena-Rodrıguez, U. Pal, L. Rodrıguez-Fernandez, A. Crespo-Sosa;Linear optical response of metallic nanoshells in di�erent dielectricmedia, Journal of the Optical Society of America B: Optical Physics25, 1371 (2008)

1192. Olson, T.Y., Zhang, J.Z., Structural and optical properties and emer-ging applications of metal nanomaterials, Journal of MaterialsScience and Technology 24 433 (2008)

1191. Albella, P., Moreno, F., Saiz, J.M., Gonzalez, F. Surface inspection bymonitoring spectral shi�s of localized plasmon resonances, OpticsExpress 16, 12872 (2008)


1189. Ovchinnikov, V., Shevchenko, A., Surface plasmon resonances indi�usive re�ection spectra of multilayered silver nanocompo-site �lms, Proceedings - The 2nd International Conference onQuantum-, Nano- and Micro-technologies, ICQNM 2008, art. no.4455929, pp. 40-44 (2008)

1188. Kumar, P, Krishna MG, Bhattacharya AK, Electric-�eld-induced na-nostructuring of metallic thin �lms, International Journal of Nanos-cience 7 255 (2008)


1186. M. Loncaric, J. Sancho-Parramon, M. Pavlovic, H. Zorc, P. Dubcek, A.Turkovic, S. Bernstor�, G. Jakopic, A. Haase, Optical and structuralcharacterization of silver islands �lms on glass substrates, Vacuum84, 188 (2009)

1185. T. Pradeep, Anshup, Noble metal nanoparticles for water puri�ca-tion: A critical review, Thin Solid Films 517, 6441 (2009)

1184. G. S R Raju, H C Jung, J Y Park, C.M. Kanamadi, B K Moon, J HJeong, S-M Son, J H Kim Synthesis and luminescent properties ofDy3+:GAG nanophosphors Journal of Alloys and Compounds 481,730 (2009)

1183. Day, P.N., Nguyen, K.A., Pachter, R., Modeling the optical proper-ties of small gold nanoclusters using time-dependent density fun-ctional theory, Proceedings of SPIE - The International Society forOptical Engineering 7224, art. no. 722418 2009

1182. Martinez, U; Jerratsch, JF; Nilius, N; Giordano, L; Pacchioni, G;Freund, HJ, Tailoring the Interaction Strength between Gold Par-ticles and Silica Thin Films via Work Function Control, Phys. Rev.Lett. 103, 056801 (2009)

1181. Le Guevel, X; Wang, FY; Stranik, O; Nooney, R; Gubala, V; McDo-nagh, C; MacCraith, BD, Synthesis, Stabilization, and Functionaliza-tion of Silver Nanoplates for Biosensor Applications, J. Phys. Chem.C 113, 16380 (2009)

1180. Maya, F., Muhl, S., Pena, O., Miki-Yoshida, M. Synthesis and charac-terization of silver-carbon nanoparticles produced by high-currentpulsed arc, Thin Solid Films 518, 1484 (2009)

1179. X Qian, H S. Park The in�uence of mechanical strain on the opticalproperties of spherical gold nanoparticles, Journal of the Mecha-nics and Physics of Solids 58, 330 (2010)



1176. Murai, S., Fujita, K., Meng, X., Tanaka, K. Random dispersion of me-tal nanoparticles can form a laser cavity, 2010 Chemistry Letters39 (6), pp. 532-537

1175. Stefania DAgostino and Fabio Della Sala Active Role of Oxide La-yers on the Polarization of Plasmonic Nanostructures, ACS NANO4 (7): 4117-4125 JUL 2010

1174. Sangpour, P; Hashemi, F; Moshfegh, AZ Photoenhanced Degrada-tion of Methylene Blue on Cosputtered M:TiO2 (M = Au, Ag, Cu)Nanocomposite Systems: A Comparative Study, JOURNAL OF PHY-SICAL CHEMISTRY C 114 (33): 13955-13961 AUG 26 2010

1173. M. Ghanashyam Krishna, Prashant Kumar Non-Lithographic Tech-niques for Nanostructuring of Thin Films and Bulk Surfaces, Emer-ging Nanotechnologies for Manufacturing, 2010, Pages 93-130

1172. W Jacak , J Krasnyj , J Jacak , W Donderowicz and L Jacak Me-chanism of plasmon-mediated enhancement of photovoltaic e�-ciency, 2011 J. Phys. D: Appl. Phys. 44 05530

1171. Trinh, L.T.T., Kjoniksen, A.-L., Zhu, K., Knudsen, K.D., Volden, S.,Glomm, W.R., Nystrom, B., Low salt-induced aggregation of citrate-covered silver particles in aqueous solutions of cellulose derivati-ves, 2009 Colloid and Polymer Science 287 (12), pp. 1391-1404

1170. Zhang, ZY; Zhao, YP, The visible extinction peaks of Ag nanoheli-xes: A periodic e�ective dipole model, APPLIED PHYSICS LETTERS98 (8): Art. No. 083102 FEB 21 2011

1169. Ngo, Y.H., Li, D., Simon, G.P., Garnier, G. Paper surfaces functio-nalized by nanoparticles, 2011 Advances in Colloid and InterfaceScience, 163 (1) pp. 23-38.



1167. Dominguez, CT; Maltez, RL; dos Reis, RMS; de Melo, LSA; de Arau-jo, CB; Gomes, ASL Dependence of random laser emission on sil-ver nanoparticle density in PMMA �lms containing rhodamine 6G,JOURNAL OF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHY-SICS 28 (5): 1118-1123 MAY 2011

1166. Chen, FF; Dai, SX; Xu, TF; Shen, X; Song, BA; Lin, CG; Wang, XZ;Liu, C; Xu, K; Heo, J Redshi�ed surface plasma resonance-inducedenhancement of third-order optical nonlinearities in silver nano-clusters embedded in Bi2O3-B2O3-TiO2 pseudo-ternary glasses,JOURNAL OF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHY-SICS 28 (5): 1283-1288 MAY 2011

1165. Leong, ESP; Liu, YJ; Wang, B; Teng, JH E�ect of Surface Morpho-logy on the Optical Properties in Metal-Dielectric-Metal Thin FilmSystems, ACS APPLIED MATERIALS & INTERFACES 3 (4): 1148-1153APR 2011

1164. Charles, DE; Gara, M; Aherne, D; Ledwith, DM; Kelly, JM; Blau,WJ; Brennan-Fournet, ME Scaling of Surface Plasmon Resonancesin Triangular Silver Nanoplate Sols for Enhanced Refractive IndexSensing, PLASMONICS 6 (2): 351-362 JUN 2011

1163. Brenier, R Bifunctional Surfaces with Superhydrophobic and Plas-monic Properties, JOURNAL OF PHYSICAL CHEMISTRY C 115 (21):10544-10549 JUN 2 2011

1162. Szeremeta, J., Nyk, M., Chyla, A., Strek, W., Samoc, M. Enhancementof photoconduction in a conjugated polymer through doping withcopper nanoparticles, 2011, Optical Materials 33 (9), pp. 1372-1376

1161. Babapour, A., Yang, B., Bahang, S., Cao, W. High concentrationsilver/organic or silver/inorganic nanocomposites and their opti-cal properties, 2011 Symposium on Photonics and Optoelectronics,SOPO 2011, art. no. 5780541

1160. Ngo, YH; Li, D; Simon, GP; Gamier, G; Paper surfaces functionalizedby nanoparticles, ADVANCES IN COLLOID AND INTERFACE SCIENCE163 (1): 23-38 10.1016/j.cis.2011.01.004 MAR 15 2011

1159. Wu, PC; Losurdo, M; Kim, TH; Garcia-Cueto, B; Moreno, F; Bruno,G; Brown, AS Ga-Mg Core-Shell Nanosystem for a Novel Full ColorPlasmonics, JOURNAL OF PHYSICAL CHEMISTRY C 115 (28): 13571-13576 10.1021/jp201423r JUL 21 2011

1158. Dorfs, D; Hartling, T; Miszta, K; Bigall, NC; Kim, MR; Genovese,A; Falqui, A; Povia, M; Manna, L Reversible Tunability of the Near-Infrared Valence Band Plasmon Resonance in Cu(2-x)Se Nanocrys-tals, JOURNAL OF THE AMERICAN CHEMICAL SOCIETY 133 (29):11175-11180 10.1021/ja2016284 JUL 27 2011

1157. Albella, P., Garcia-Cueto, B., Gonzalez, F., Moreno, F., Wu, P.C., Kim,T.-H., Brown, A., Yang, Y., Everitt, H.O., Videen, G. Shape matters:Plasmonic nanoparticle shape enhances interaction with dielectricsubstrate, Nano Letters 11 (9), pp. 3531-3537 2011

1156. Chen, F., Dai, S., Xu, T., Shen, X., Lin, C., Nie, Q., Liu, C., Heo,J. Surface-plasmon enhanced ultrafast third-order optical nonli-nearities in ellipsoidal gold nanoparticles embedded bismuthateglasses, Chemical Physics Letters 514 (1-3), pp. 79-82 2011

1155. Pullini, D., Carotenuto, G., Palomba, M., Mosca, A., Horsewell,A., Nicolais, L. In situ synthesis of high-density contact-free Ag-nanoparticles for plasmon resonance polystyrene nanocomposi-tes, Journal of Materials Science 46 (24), pp. 7905-7911 2011

1154. Kassab, L.R.P., Freitas, L.F., Assumpcao, T.A.A., Da Silva, D.M., DeAraujo, C.B. Frequency upconversion properties of Ag: TeO2-ZnOnanocomposites codoped with Yb3+ and Tm3+ ions, Applied Phy-sics B: Lasers and Optics 104 (4), pp. 1029-1034 2011

1153. Rostami, G., Shahabadi, M., Afzali-Kusha, A., Rostami, A. EIT basedtunable metal composite spherical nanoparticles, Photonics andNanostructures - Fundamentals and Applications 10 (1) , pp. 102-111 2012

1152. Brenier, R. Enhancement of light transmission through silver nano-particles, Journal of Physical Chemistry C 116 (9) , pp. 5358-5366,2012

1151. Zhu, S; Chen, TP; Liu, YC; Liu, Y; Fung, S A quantitative mode-ling of the contributions of localized surface plasmon resonanceand interband transitions to absorbance of gold nanoparticles,JOURNAL OF NANOPARTICLE RESEARCH, 14 (5):10.1007/s11051-012-0856-y MAY 2012

1150. Murai, S., Tokuda, Y., Fujita, K., Tanaka, K. Tuning the wavelengthof ampli�ed spontaneous emission coupled to localized surfaceplasmon, 2012, Applied Physics Letters 101 (3) , art. no. 031117

1149. Kelly, J.M., Keegan, G., Brennan-Fournetb, M.E. Triangular silvernanoparticles: Their preparation, functionalisation and properties,2012, Acta Physica Polonica A 122 (2) , pp. 337-345

1148. Babapour, A; Yang, B; Bahang, S; Cao, W Biocide Silver Na-noparticles in Two Di�erent Silica-Based Coating, INTERNATIO-NAL CONFERENCE ON FUNDAMENTAL AND APPLIED SCIENCES2012 (ICFAS2012), AIP Conference Proceedings 1482 681-684;10.1063/1.4757558 2012

1147. K Wongravee, T Parnklang, P Pienpinijtham, C Lertvachirapaiboon,Y Ozaki, C Thammacharoen, S Ekgasit Chemometric analysis ofspectroscopic data on shape evolution of silver nanoparticles in-duced by hydrogen peroxide, Phys. Chem. Chem. Phys., 2013, 15,4183-4189

1146. L M Payne, W Langbein, P Borri Polarization-resolved extinctionand scattering cross-section of individual gold nanoparticles mea-sured by wide-�eld microscopy on a large ensemble, Appl. PhysLett 102 (13) , art. no. 131107 (2013)

1145. Pena-Rodrıguez, O., Pal, U. (2013) Exploiting the Tunable OpticalResponse of Metallic Nanoshells. In UV-VIS and Photoluminescen-ce Spectroscopy for Nanomaterials Characterization (pp. 99-149).Springer Berlin Heidelberg.

1144. Saion, E., Gharibshahi, E., Naghavi, K. Size-controlled and opti-cal properties of monodispersed silver nanoparticles synthesizedby the radiolytic reduction method, 2013, International Journal ofMolecular Sciences 14 (4) , pp. 7880-7896

1143. Cheng, J.-W., Chen, F.-F., Dai, S.-X., Xu, Y.-S., Tan, R.-Q. Study onspectroscopy and third-order optical nonlinear characteristics ofAg-nanoparticles embedded bismuthate glass, 2013, Spectroscopyand Spectral Analysis 33 (6) , pp. 1642-1646

1142. R Krahne, L Manna, G Morello, A Figuerola, C George, and S De-ka NanoScience and Technology, pages 87–131. Springer BerlinHeidelberg, 2013.

1141. You, J., Leonard, K., Takahashi, Y., Yonemura, H., Yamada, S. E�ectsof silver nanoparticles with di�erent sizes on photochemical res-ponses of polythiophene-fullerene thin �lms, 2014, Physical Che-mistry Chemical Physics 16 (3) , pp. 1166-1173

1140. Hassellov, M., Kaegi, R. Analysis and Characterization of Manu-factured Nanoparticles in Aquatic Environments (Chapter ), 2009,Environmental and Human Health Impacts of Nanotechnology

1139. Hu, Y., Qiu, J., Song, Z., Zhou, D Ag2O dependent up-conversionluminescence properties in Tm 3+/Er3+/Yb3+ co-doped oxy�uoro-germanate glasses, Journal of Applied Physics Volume 115, Issue8, 2014, Article number 083512

1138. Zhu, XM; Ma, X; Chang, HM; Tao, HZ; Zhao, XJ Morphology tuningof mono-disperse silver nanoparticles by reaction temperatureadjustment, JOURNAL OF WUHAN UNIVERSITY OF TECHNOLOGY-MATERIALS SCIENCE EDITION, 29 (1):40-43; 10.1007/s11595-014-0864-0 FEB 2014


1137. Pamies, R., Cifre, J.G.H., Espin, V.F., Collado-Gonzalez, M., Banos,F.G.D., De La Torre, J.G. Aggregation behaviour of gold nanopar-ticles in saline aqueous media, (2014) Journal of Nanoparticle Re-search, 16 (4), art. no. 2376

1136. Krishnan, A. , Das, S., Krishna, S.R., Khan, M.Z.A Multilayer na-noparticle arrays for broad spectrum absorption enhancement inthin �lm solar cells, Optics Express Volume 22, Issue SUPPL. 3,2014, Pages A800-A811

1135. Sajid, M.H., Said, Z., Saidur, R., Adikan, F.R.M., Sabri, M.F.M., Rahim,N.A A time variant investigation on optical properties of water ba-sed Al2O3 nano�uid, International Communications in Heat andMass Transfer Volume 50, 2014, Pages 108-116


1133. Zhang, P; Li, SB; Liu, CH; Wei, XB; Wu, ZM; Jiang, YD; Chen, ZNear-infrared optical absorption enhanced in black silicon via Agnanoparticle-induced localized surface plasmon, NANOSCALE RE-SEARCH LETTERS, 9 10.1186/1556-276X-9-519 SEP 22 2014

1132. Said, Z., Saidur, R., Rahim, N.A. Optical properties of metal oxidesbased nano�uids, International Communications in Heat and MassTransfer Volume 59, December 01, 2014, Pages 46-54

1131. Sajid Hossain, M.a , Saidur, R.ab , Mohd Sabri, M.F.a , Said, Z.ac ,Hassani, S. Spotlight on available optical properties and models ofnano�uids: A review, Renewable and Sustainable Energy ReviewsVolume 43, March 2015, Pages 750-762

1130. Dan, H.K., Zhou, D., Wang, R., Jiao, Q., Yang, Z., Song, Z., Yu, X.,Qiu, J. E�ects of gold nanoparticles on the enhancement of upcon-version and near-infrared emission in Er3+/Yb3+ co-doped trans-parent glass-ceramics containing BaF2 nanocrystals, Ceramics In-ternational Volume 41, Issue 2, 1 March 2015, Pages 2648-2653

1129. Ibragimova, E.M., Mussaeva, M.A., Buzrikov, S. Recombinationgamma-luminescence at the nanometal Li - dielectric LiF inter-faces, 2015 Radiation Physics and Chemistry 111, pp. 40-45

1128. Lopatynskyi, A.M., Lytvyn, V.K., Nazarenko, V.I., (...), Lucas, B.D.,Chegel, V.I. Au nanostructure arrays for plasmonic applications:annealed island �lms versus nanoimprint lithography, 2015 Na-noscale Research Letters 10 (1), pp. 1-9

1127. Gupta, R.K., Dubey, M., Li, P.Z., Xu, Q., Pandey, D.S. Size-controlledsynthesis of Ag nanoparticles functionalized by heteroleptic dipy-rrinato complexes having meso- pyridyl substituents and their ca-talytic applications, 2015 Inorganic Chemistry 54 (6), pp. 2500-2511

1126. Monti, A; Alu, A; Toscano, A; Bilotti, F Optical invisibility throughmetasurfaces made of plasmonic nanoparticles, JOURNAL OF AP-PLIED PHYSICS, 117 (12):10.1063/1.4916257 MAR 28 2015

1125. Amendola, V., Saija, R., Marago, O.M., Iati, M.A. Superior plasmonabsorption in iron-doped gold nanoparticles, 2015 Nanoscale 7(19), pp. 8782-8792

1124. Sardana, SK; Chava, VSN; Komarala, VK Morphology and opti-cal properties of sputter deposited silver nanoparticles on plain,textured and antire�ection layer coated textured silicon, APPLIEDSURFACE SCIENCE, 347 651-656; 10.1016/j.apsusc.2015.04.145 AUG30 2015

1123. Monti, A., Alu, A., Toscano, A., Bilotti, F. Optical invisibility throughmetasurfaces made of plasmonic nanoparticles, 2015 Journal ofApplied Physics 117 (12), 123103

1122. Xu, Y., Xuan, Y. Design principle for absorption enhancement withnanoparticles in thin-�lm silicon solar cells, 2015 Journal of Na-noparticle Research 17 (7), 314

1121. Leong, K.Y., Ong, H.C., Amer, N.H., (...), Risby, M.S., Ku Ahmad, K.Z.An overview on current application of nano�uids in solar ther-mal collector and its challenges, 2016 Renewable and SustainableEnergy Reviews 53, pp. 1092-1105

1120. Loncaric, M; Sancho-Parramon, J; Zorc, H; Segota, S; Dubcek, P;Bernstor�, S Optical and structural characterization of gold is-land �lms on glass substrates, THIN SOLID FILMS, 591 204-209;10.1016/j.tsf.2015.04.031 B SEP 30 2015



1117. Yao, H. Monolayer-protected metal nanoclusters with chirality:Synthesis, size fractionation, optical activity and asymmetric trans-formation, 2015 Handbook of Nanoparticles pp. 191-216

1116. Song, D., Wang, Y., Jing, D., Geng, J. Investigation and prediction ofoptical properties of alumina nano�uids with di�erent aggregationproperties, 2016 International Journal of Heat and Mass Transfer96, pp. 430-437

1115. Monti, A; Toscano, A; Bilotti, F Exploiting the surface dis-persion of nanoparticles to design optical-resistive sheetsand Salisbury absorbers, OPTICS LETTERS, 41 (14):3383-3386;10.1364/OL.41.003383 JUL 15 2016

1114. Ghanashyam Krishna, M., Kumar, P. Non-lithographic techniquesfor nanostructuring of thin �lms and bulk surfaces (Book Chapter)2014 SEmerging Nanotechnologies for Manufacturing pp. 86-124

1113. Ameer, FS; Varahagiri, S; Benza, DW; Willett, DR; Wen, YM; Wang, FL;Chumanov, G; Anker, JN Tuning Localized Surface Plasmon Reso-nance Wavelengths of Silver Nanoparticles by Mechanical Defor-mation, 2016 Journal of Physical Chemistry C 120 (37), pp. 20886-20895

1112. Violi, I.L., Gargiulo, J., Von Bilderling, C., Cortes, E., Stefani, F.D.Light-Induced Polarization-Directed Growth of Optically PrintedGold Nanoparticles, 2016 Nano Letters 16 (10), pp. 6529-6533

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1110. Khlebtsov, B. N.; Khlebtsov, N. G, Multipole Plasmons in Metal Nano-rods: Scaling Properties and Dependence on Particle Size, Shape,Orientation, and Dielectric Environment, J. Phys. Chem. C (2007)111, 11516

1109. F Ren, G X Cai, X H Xiao, L X Fan, C Liu, D J Fu, J B Wang, C Z Jiang,Ion irradiation induced hollow and sandwiched nanoparticles, J.Appl. Phys. 103, 084308 (2008)

1108. R. Giulian, P. Kluth, D.J. Sprouster, L.L. Araujo, A. Byrne and M.C.Ridgway, Swi� heavy ion irradiation of Pt nanocrystals embeddedin SiO2, Nuclear Instruments and Methods in Physics ResearchSection B: Beam Interactions with Materials and Atoms 266, 3158(2008)

1107. Hasegawa, T.; Itoh, Y.; Kasuya, A. Development of UV-VisibleMultiple-Angle Incidence Resolution Spectrometry and ApplicationStudy of Anisotropic Surface Plasmon Excitation in a Silver ThinFilm on a Glass Substrate, Anal. Chem. 80 5630 (2008)


1106. Mohapatra, S., Mishra, Y.K., Ghatak, J., Kabiraj, D., Avasthi, D.K.Surface plasmon resonance of Ag nanoparticles embedded in par-tially oxidized amorphous Si matrix, Journal of Nanoscience andNanotechnology 8, 4285 (2008).

1105. JEAN-MICHEL LAMARRE DE?PARTEMENT DE GENIE PHYSIQUE, ECO-LE POLYTECHNIQUE DE MONTREAL INSTITUT FRESNEL, CNRS UMR6133, PROPRIETES OPTIQUES LINEAIRES ET NON-LINEAIRES DENANOCOMPOSITES ME?TAL/DIELECTRIQUE ANISOTROPES, THESEPRE?SENTEE EN VUE DE L’OBTENTION DU DIPLOME DE PHILOSOP-HIÆ DOCTOR (GENIE PHYSIQUE) ET DU GRADE DE DOCTEUR ENSCIENCES (PHYSIQUE & SCIENCES DE LA MATIERE) JUIN 2008 UNI-VERSITE DE MONTREAL UNIVERSITE PAUL CEZANNE, AIX-MARSEILLEIII

1104. E. A. Dawi, G. Rizza, M. P. Mink, A. M. Vredenberg, and F. H. P. M.Habraken Ion beam shaping of Au nanoparticles in silica: Particlesize and concentration dependence, J. Appl. Phys. 105 074305(2009)

1103. Kluth P, Giulian R, Sprouster DJ, Schnohr CS, Byrne AP, CooksonDJ, Ridgway MC Energy dependent saturation width of swi� heavyion shaped embedded Au nanoparticles, Applied Physics Letters94 113107 (2009)

1102. Bernabo, M; Pucci, A; Galembeck, F; Leite, CAD; Ruggeri, G.,Thermal- and Sun-Promoted Generation of Silver NanoparticlesEmbedded into Poly(vinyl alcohol) Films, Macromolecular Mate-rials and Engineering 294, 256 (2009)

1101. F Ren, X H Xiao, G X Cai, J B Wang, C Z Jiang, Engineering embeddedmetal nanoparticles with ion beam technology, Applied Physics A:Materials Science & Processing 96, 317 (2009)

1100. Ridgway, MC; Kluth, P; Giulian, R; Sprouster, DJ; Araujo, LL; Schnohr,CS; Llewellyn, DJ; Byrne, AP; Foran, GJ; Cookson, DJ, Changes inmetal nanoparticle shape and size induced by swi� heavy-ionirradiation, Nuclear Instruments and Methods in Physics ResearchSection B: Beam Interactions with Materials and Atoms 267, 931(2009)

1099. Singh, F; Mohapatra, S; Stolquert, JP; Avasthi, DK; Pivin, JC, Shapedeformation of embedded metal nanoparticles by swi� heavy ionirradiation, Nuclear Instruments and Methods in Physics ResearchSection B: Beam Interactions with Materials and Atoms 267, 936(2009)

1098. Schmidt, B., Heinig, K.-H., Mucklich, A., Akhmadaliev, C. Swi�-heavy-ion-induced shaping of spherical Ge nanoparticles intodisks and rods Nuclear Instruments and Methods in Physics Re-search B 267 1345 (2009)

1097. Dawi, EA; Rizza, G; Mink, MP; Vredenberg, AM; Habraken, FHPMIon beam shaping of Au nanoparticles in silica: Particle size andconcentration dependence, J . Appl. Phys. 105, 074305 (2009)

1096. Awazu, K; Wang, XM; Komatsubara, T; Watanabe, J; Matsumoto, Y;Warisawa, S; Ishihara, S, The fabrication of aligned pairs of goldnanorods in SiO2 �lms by ion irradiation, Nanotechnology 20,325303 (2009)

1095. Rizza, G; Dawi, EA; Vredenberg, AM; Monnet, Ion engineering ofembedded nanostructures: From spherical to facetted nanoparti-cles, Appl. Phys. Lett. 95, 043105 (2009)

1094. Sprouster, DJ; Giulian, R; Schnohr, CS; Araujo, LL; Kluth, P; Byrne,AP; Foran, GJ; Johannessen, B; Ridgway, MC, fcc-hcp phase trans-formation in Co nanoparticles induced by swi� heavy-ion irradia-tion, Phys. Rev. B 80, 115438 (2009)

1093. Mishra, Y.K., Avasthi, D.K., Singh, F., Pivin, J.C., Pippel, E., Nano-engineering by MeV ion beams, Materials Research Society Sym-posium Proceedings 1027, 13 (2008)

1092. Mattei, G; Mazzoldi, P; Bernas, H, Metal Nanoclusters for OpticalProperties, Materials Science with Ion Beams 116, 287 (2010)

1091. E.A. Dawi, A. Klimmer, G. Rizza, P. Ziemann Ion beam shaping ofAu nanoparticles prepared by micellar technique, Nuclear Instru-ments and Methods in Physics Research Section B: Beam Interac-tions with Materials and Atoms 268, 481 (2010)

1090. B Khlebtsov, V Khanadeev, N Khlebtsov, Tunable depolarized lightscattering from gold and gold/silver nanorods, Phys. Chem. Chem.Phys., 2010, DOI: 10.1039/b925102b (2010)

1089. Li, ZB; Zhou, WY; Kong, XT; Tian, JG Polarization dependenceand independence of near-�eld enhancement through a subwa-velength circle hole, OPTICS EXPRESS 18 (6): 5854-5860 MAR 152010

1088. Krasheninnikov, AV; Nordlund, K, Ion and electron irradiation-induced e�ects in nanostructured materials, JOURNAL OF APPLIEDPHYSICS 107 (7): Art. No. 071301 APR 1 2010

1087. Kuiri, PK; Joseph, B; Ghatak, J; Lenka, HP; Sahu, G, Tuning Sizeand Shape of Au Nanoparticles Embedded in Silica Glass by Swi�Heavy Ion Irradiation, ADVANCED SCIENCE LETTERS 3 (4): 404-410DEC 2010

1086. Giulian, R; Kremer, F; Araujo, LL; Sprouster, DJ; Kluth, P; Fichtner,PFP; Byrne, AP; Ridgway, MC, Shape transformation of Sn na-nocrystals induced by swi� heavy-ion irradiation and the neces-sity of a molten ion track, PHYSICAL REVIEW B 82 (11): Art. No.113410 SEP 24 2010

1085. Avasthi, DK; Mishra, YK; Singh, F; Stoquert, JP Ion tracks in silicafor engineering the embedded nanoparticles, NUCLEAR INSTRU-MENTS & METHODS IN PHYSICS RESEARCH SECTION B-BEAM IN-TERACTIONS WITH MATERIALS AND ATOMS 268 (19): 3027-3034OCT 1 2010

1084. M Kumar, P. K. Kulriya, J. C. Pivin, and D. K. Avasthi Evolution andtailoring of plasmonic properties in Ag:ZrO2 nanocomposite �lmsby swi� heavy ion irradiation, J. Appl. Phys. 109, 044311 (2011)

1083. Stepanov, AL SYNTHESIS OF SILVER NANOPARTICLES IN DIELECTRICMATRIX BY ION IMPLANTATION: A REVIEW, REVIEWS ON ADVANCEDMATERIALS SCIENCE 26 (1-2): 1-29 DEC 2010

1082. Ridgway, MC; Giulian, R; Sprouster, DJ; Kluth, P; Araujo, LL; Lle-wellyn, DJ; Byrne, AP; Kremer, F; Fichtner, PFP; Rizza, G; Amekura,H; Toulemonde, M Role of Thermodynamics in the Shape Transfor-mation of Embedded Metal Nanoparticles Induced by Swi� Heavy-Ion Irradiation, PHYSICAL REVIEW LETTERS 106 (9): Art. No. 095505MAR 2 2011

1081. Rizza, G; Attouchi, F; Coulon, PE; Perruchas, S; Gacoin, T; Monnet,I; Largeau, L Rayleigh-like instability in the ion-shaping of Au-Agalloy nanoparticles embedded within a silica matrix, NANOTECH-NOLOGY 22 (17): Art. No. 175305 APR 29 2011

1080. R Giulian , L L Araujo , P Kluth , D J Sprouster , C S Schnohr ,A P Byrne and M C Ridgway, Swi� heavy ion irradiation of Ptnanocrystals: II. Structural changes and H desorption, 2011 J. Phys.D: Appl. Phys. 44 155402

1079. R Giulian , L L Araujo , P Kluth , D J Sprouster , C S Schnohr , AP Byrne and M C Ridgway Swi� heavy ion irradiation of Pt na-nocrystals: I. shape transformation and dissolution, 2011 J. Phys.D: Appl. Phys. 44 155401

1078. E A Dawi , A M Vredenberg , G Rizza and M Toulemonde Ion-induced elongation of gold nanoparticles in silica by irradiationwith Ag and Cu swi� heavy ions: track radius and energy lossthreshold, 2011 Nanotechnology 22 215607

1077. Amekura, H; Ishikawa, N; Okubo, N; Ridgway, MC; Giulian, R;Mitsuishi, K; Nakayama, Y; Buchal, C; Mantl, S; Kishimoto, N Znnanoparticles irradiated with swi� heavy ions at low �uences:Optically-detected shape elongation induced by nonoverlappingion tracks, PHYSICAL REVIEW B 83 (20): Art. No. 205401 MAY 3 2011


1076. Kumar, H; Ghosh, S; Avasthi, DK; Kabiraj, D; Mucklich, A; Zhou, SQ;Schmidt, H; Stoquert, JP Ion beam-induced shaping of Ni nanopar-ticles embedded in a silica matrix: from spherical to prolate shape,NANOSCALE RESEARCH LETTERS 6 (1): Art. No. 155 DEC 2010

1075. Sprouster, D.J., Giulian, R., Araujo, L.L., Kluth, P., Johannessen, B.,Cookson, D.J., Ridgway, M.C. Swi� heavy-ion irradiation-inducedshape and structural transformation in cobalt nanoparticles, 2011Journal of Applied Physics 109 (11), art. no. 113504

1074. H. Amekura, N. Ishikawa, N. Okubo, Y. Nakayama, K. MitsuishiAsynchronous melting of embedded metal nanoparticles and silicamatrix for shape elongation induced by swi� heavy ion irradia-tion, Nuclear Instruments and Methods in Physics Research SectionB: Beam Interactions with Materials and Atoms, Volume 269, Issue23, 1 December 2011, Pages 2730-2733

1073. Amekura, H; Sele, ML; Ishikawa, N; Okubo, N Thermal stabi-lity of embedded metal nanoparticles elongated by swi� heavyion irradiation: Zn nanoparticles in a molten state but preser-ving elongated shapes, NANOTECHNOLOGY, 23 (9):10.1088/0957-4484/23/9/095704 MAR 9 2012

1072. Prasad, MH; Kalpana, D; Kumar, NJ Silver Nano Coating on GlassSubstrate and Antibacterial Activity of Silver Nano particles Synt-hesised by Arachis hypogaea L. Leaf Extract, CURRENT NANOS-CIENCE, 8 (2):280-285; APR 2012

1071. Araujo, L.L., Giulian, R., Sprouster, D.J., Schnohr, C.S., Llewellyn, D.J.,Johannessen, B., Byrne, A.P., Ridgway, M.C. Structural properties ofembedded Ge nanoparticles modi�ed by swi� heavy-ion irradia-tion, (2012) Physical Review B - Condensed Matter and MaterialsPhysics, 85 (23), art. no. 235417

1070. Liu, HX; Zhang, XD; Shen, YY; Zhang, LH; Wang, J; Zhu, F; Zhang, B;Liu, CL Tailoring the Size Distribution of Ag Nanoparticles Embed-ded in SiO2 by Xe Ion Postirradiation, APPLIED PHYSICS EXPRESS,5 (10):10.1143/APEX.5.105002 OCT 2012

1069. Wang, J., Jia, G., Zhang, B., Liu, H., Liu, C. Formation and opticalabsorption property of nanometer metallic colloids in Zn and Agdually implanted silica: Synthesis of the modi�ed Ag nanoparti-cles, 2013, Journal of Applied Physics 113 (3) , art. no. 034304

1068. Benzo, P., Bonafos, C., Bayle, M., Carles, R., Cattaneo, L., Farcau,C., Benassayag, G., Pecassou, B, Muller, D. Controlled synthesis ofburied delta-layers of Ag nanocrystals for near-�eld plasmonice�ects on free surfaces, 2013, Journal of Applied Physics 113 (19), art. no. 193505

1067. Yang, YT; Zhang, CH; Song, Y; Gou, J; Zhang, LQ; Meng, YC; Zhang,HQ; Ma, YZ Swi� heavy ion irradiation acts as a size �lter to Agnanoparticles embedded in silica glass, NUCLEAR INSTRUMENTS &METHODS IN PHYSICS RESEARCH SECTION B-BEAM INTERACTIONSWITH MATERIALS AND ATOMS, 308 24-27; 2013

1066. Singh, F., Stoquert, J.P., Pivin, J.C. Study of classical thermo-mechanical equations in ultrafast thermo-elastic domain: Electro-nic sputtering from metal-dielectric nanocomposites, 2013, Journalof Physics D: Applied Physics 46 (32) , art. no. 325305

1065. Singh, F., Gautam, S.K., Kulriya, P.K., Pivin, J.C. In situ X-ray dif-fraction study of the growth of silver nanoparticles embedded insilica �lm by ion irradiation: The e�ect of volume fraction, 2013,Nuclear Instruments and Methods in Physics Research, Section B:Beam Interactions with Materials and Atoms 311 , pp. 5-9

1064. Amekura, H; Okubo, N; Ishikawa, N; Tsuya, D; Mitsuishi, K; Na-kayama, Y; Singh, UB; Khan, SA; Mohapatra, S; Avasthi, DK Swi�heavy ion irradiation of ZnO nanoparticles embedded in silica:Radiation-induced deoxidation and shape elongation, Appl. Phys.Lett., 103 (20):10.1063/1.4829475 NOV 11 2013

1063. Saikiran, V., Srinivasa Rao, N., Devaraju, G., Pathak, A.P. SHI irra-diation �uence and energyloss dependence e�ects on Ge NCs with

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1061. Liu, C., Wang, N., Wang, J., Liu, H., Jia, G., Mu, X. Modi�cations instructure and optical property of Cu nanoparticles in SiO2 by postheavy ion irradiation, Nuclear Instruments and Methods in PhysicsResearch, Section B: Beam Interactions with Materials and AtomsVolume 326, 1 May 2014, Pages 28-32

1060. Srivastava, SK; Gangopadhyay, P; Amirthapandian, S; Sairam,TN; Basu, J; Panigrahi, BK; Nair, KGM E�ects of high-energy Siion-irradiations on optical responses of Ag metal nanoparticlesin a SiO2 matrix, CHEMICAL PHYSICS LETTERS, 607 100-104;10.1016/j.cplett.2014.05.059 JUN 27 2014

1059. Zhang, Y., Crespillo, M.L., Xue, H., Jin, K., Chen, C.H., Fontana, C.L.,Graham, J.T., Weber, W.J. New ion beam materials laboratory formaterials modi�cation and irradiation e�ects research, NuclearInstruments and Methods in Physics Research, Section B: BeamInteractions with Materials and Atoms Volume 338, 1 November2014, Pages 19-30

1058. Amekura, H., Mohapatra, S., Singh, U.B., Khan, S.A., Kulriya, P.K.,Ishikawa, N., Okubo, N., Avasthi, D.K. Shape elongation of Zn na-noparticles in silica irradiated with swi� heavy ions of di�erentspecies and energies: Scaling law and some insights on the elon-gation mechanism, Nanotechnology Volume 25, Issue 43, 31 Oc-tober 2014, Article number 435301

1057. Leino, AA; Djurabekova, F; Nordlund, K Radiation e�ects in nano-clusters embedded in solids, EUROPEAN PHYSICAL JOURNAL B, 87(10):10.1140/epjb/e2014-50359-x OCT 20 2014

1056. Amekura, H; Okubo, N; Ishikawa, N Optical birefringenceof Zn nanoparticles embedded in silica induced by swi�heavy-ion irradiation, OPTICS EXPRESS, 22 (24):29888-29898;10.1364/OE.22.029888 DEC 1 2014

1055. Amekura, H; Kono, K; Okubo, N; Ishikawa, N Shape elongation ofembedded Zn nanoparticles induced by swi� heavy ion irradia-tion: A SAXS study, PHYSICA STATUS SOLIDI B-BASIC SOLID STATEPHYSICS, 252 (1):165-169; 10.1002/pssb.201400138 JAN 2015

1054. Rizza, G. From ion-hammering to ion-shaping: An historical over-view, Journal of Physics: Conference Series Volume 629, Issue 1,13 July 2015, Article number 012005 CIRIL: 30 Years of Interdisci-plinary Research at GANIL Meeting; Caen; France; 17 October 2013through ; Code 113220

1053. Chervinskii, S; Drevinskas, R; Karpov, DV; Beresna, M; Lipovskii, AA;Svirko, YP; Kazansky, PG Revealing the nanoparticles aspect ratioin the glass-metal nanocomposites irradiated with femtosecondlaser, SCIENTIFIC REPORTS, 5 10.1038/srep13746 SEP 8 2015

1052. Coulon, P.-E., Amici, J., Clochard, M.-C., (...), Largeau, L., Rizza, G.Ion-shaping of embedded gold hollow nanoshells into verticallyaligned prolate morphologies, 2016 Scienti�c Reports 6, 21116

1051. Wolf, S; Rensberg, J; Johannes, A; Thomae, R; Smit, F; Neveling,R; Moodley, M; Bierschenk, T; Rodriguez, M; Afra, B; Bin Ha-san, S; Rockstuhl, C; Ridgway, M; Bharuth-Ram, K; Ronning, CShape manipulation of ion irradiated Ag nanoparticles embed-ded in lithium niobate, NANOTECHNOLOGY, 27 (14):10.1088/0957-4484/27/14/145202 APR 8 2016

1050. Rizza, G., Ridgway, M.C. Ion-shaping of nanoparticles, 2016 Sprin-ger Series in Surface Sciences 61, pp. 443-473

1049. Amekura, H Shape Elongation of Embedded Metal NanoparticlesInduced by Irradiation with Swi� Heavy Ions / Cluster Ions, 2016


IEEE NANOTECHNOLOGY MATERIALS AND DEVICES CONFERENCE(NMDC), 2016.TIPO B (27):

1048. Crespo-Sosa, A., Schaaf, P., Reyes-Esqueda, J.A., Seman-Harutinian, J.A., Oliver, A., Excimer laser absorption by metallicnano-particles embedded in silica, Journal of Physics D: AppliedPhysics, 40 (7), art. no. 008, pp. 1890-1895 (2007)

1047. V. Rodriguez-Iglesias, H.G. Silva-Pereyra, J.C. Cheang-Wong, J.A.Reyes-Esqueda, L. Rodriguez-Fernandez, A. Crespo-Sosa, G. Ke-llerman and A. Oliver, MeV Si ion irradiation e�ects on the opticalabsorption properties of metallic nanoparticles embedded in sili-ca, Nuclear Instruments and Methods in Physics Research SectionB: Beam Interactions with Materials and Atoms 266, 3138 (2008)

1046. Torres-Torres, C; Reyes-Esqueda, JA; Cheang-Wong, JC; Crespo-Sosa, A; Rodriguez-Fernandez, L; Oliver, A, Optical third-order non-linearity by nanosecond and picosecond pulses in Cu nanoparti-cles in ion-implanted silica, Journal of Applied Physics 104 014306(2008)

1045. Rangel-Rojo, R., McCarthy, J., Bookey, H.T., Kar, A.K., Rodriguez-Fernandez, L., Cheang-Wong, J.C., Crespo-Sosa, A., Lopez-Suarez,A., Oliver, A., Rodriguez-Iglesias, V., Silva-Pereyra, H.G. Anisotropyin the nonlinear absorption of elongated silver nanoparticles in si-lica, probed by femtosecond pulses, Optics Communications 282,1909 (2009)



1042. V. Rodriguez-Iglesias, O. Pena-Rodrguez, H. G. Silva-Pereyra, L.Rodrguez-Fernndez, G. Kellermann, J. C. Cheang-Wong, A. Crespo-Sosa and A. Oliver, Elongated Gold Nanoparticles Obtained by IonImplantation in Silica: Characterization and T-Matrix Simulations,J. Phys. Chem. C 114, 746 (2010).

1041. Rodriguez-Iglesias, V.; Pena-Rodriguez, O.; Silva-Pereyra, H. G.;Rodriguez-Fernandez, L.; Cheang-Wong, J. C.; Crespo-Sosa, A.;Reyes-Esqueda, J. A.; Oliver, A. Tuning the aspect ratio of silvernanospheroids embedded in silica, OPTICS LETTERS 35, 703 (2010)

1040. Silva-Pereyra, HG; Arenas-Alatorre, J; Rodriguez-Fernandez, L;Crespo-Sosa, A; Cheang-Wong, JC; Reyes-Esqueda, JA; Oliver, AHigh stability of the crystalline con�guration of Au nanoparticlesembedded in silica under ion and electron irradiation, JOURNALOF NANOPARTICLE RESEARCH 12 (5): 1787-1795 JUN 2010

1039. R C Fernandez-Hernandez , R Gleason-Villagran , C Torres-Torres, J C Cheang-Wong , A Crespo-Sosa , L Rodriguez-Fernandez , ALopez-Suarez , R Rangel-Rojo , A Oliver and J A Reyes-Esqueda,Nonlinear optical spectroscopy of isotropic and anisotropic meta-llic nanocomposites, 2011 J. Phys.: Conf. Ser. 274 012074

1038. Rodriguez-Fernandez, L Particle Accelerator Applications: Ion andElectron Irradiation in Materials Science, Biology and Medicine,6TH MEXICAN NUCLEAR PHYSICS SCHOOL 1271: 159-179 2010

1037. Rocha-Mendoza, I., Rangel-Rojo, R., Rodrıguez-Fernandez, L., Oli-ver, A. Second-order nonlinear response of composites containingaligned elongated silver nanoparticles, 2011 Optics Express 19 (22),pp. 21575-21587

1036. Tamayo-Rivera, L; Fernandez-Hernandez, RC; Rodriguez-Fernandez, L; Rangel-Rojo, R; Oliver, A; Reyes-Esqueda, JAWavelength-varying third-order nonlinear optical response ofAg nanoparticles-Si quantum dots integrated plasmonic system,OPTICAL MATERIALS EXPRESS, 1 (5):980-989; SEP 1 2011


1034. Bornacelli, J; Reyes-Esqueda, JA; Rodriguez-Fernandez, L; Silva-Pereyra, HG; Oliver, A Photoluminescence increment of Si na-nocrystals in presence of Ag nanoparticles, 22ND CONGRESS OFTHE INTERNATIONAL COMMISSION FOR OPTICS: LIGHT FOR THEDEVELOPMENT OF THE WORLD, 8011 10.1117/12.901992 2011

1033. Mota-Santiago, P.-E., Crespo-Sosa, A., Jimenez-Hernandez, J.-L.,Silva-Pereyra, H.-G., Reyes-Esqueda, J.-A., Oliver, A. Size charac-terisation of noble-metal nano-crystals formed in sapphire by ionirradiation and subsequent thermal annealing, 2012, Applied Sur-face Science 259 , pp. 574-581

1032. Fernandez-Hernandez, RC; Gleason-Villagran, R; Torres-Torres, C;Rodriguez-Fernandez, L; Crespo-Sosa, A; Cheang-Wong, JC; Lopez-Suarez, A; Rangel-Rojo, R; Oliver, A; Reyes-Esqueda, JA On thephysical contributions to the third-order nonlinear optical res-ponse in plasmonic nanocomposites, JOURNAL OF OPTICS, 14(12):10.1088/2040-8978/14/12/125203 DEC 2012

1031. Tamayo-Rivera, L., Rodriguez-Fernandez, L., Rangel-Rojo, R., Oli-ver, A., Reyes-Esqueda, J.A. Nonlinear optical study of Agnanoparticles-Si quantum dots plasmonic nanostructured system,2012, 2012 Conference on Lasers and Electro-Optics, CLEO 2012 ,art. no. 6326678

1030. Bornacelli, J., Reyes Esqueda, J.A., Rodriguez Fernandez, L., Oliver,A. Improving passivation process of Si nanocrystals embedded inSiO Using Metal Ion Implantation, 2013, Journal of Nanotechnology2013 , art. no. 736478

1029. Licea-Rodriguez, J., Rocha-Mendoza, I., Rangel-Rojo, R., Rodriguez-Fernandez, L., Oliver, A. Femtosecond laser writing over silver na-noparticles system embedded in silica using nonlinear micros-copy, 2014, Optical Materials 36 (3) , pp. 682-686

1028. Tamayo-Rivera, L., Rodriguez-Fernandez, L., Rangel-Rojo, R., Oli-ver, A., Reyes-Esqueda, J.A. Nonlinear optical study of Agnanoparticles-si quantum dots plasmonic nanostructured system,2012, CLEO: Science and Innovations, CLEO-SI 2012 , pp. JW4A.52

1027. Can-Uc, B; Rangel-Rojo, R; Rodriguez-Fernandez, L; Oliver, A Po-larization selectable nonlinearities in elongated silver nanoparti-cles embedded in silica, OPTICAL MATERIALS EXPRESS, 3 (12):2012-2021; 2013

1026. Sanchez-Dena, O., Mota-Santiago, P., Tamayo-Rivera, L., Crespo-Sosa, A., Oliver, A., Reyes-Esqueda, J.A. Size-and shape-dependentnonlinear optical response of au nanoparticles embedded in sapp-hire, (2013) Optics InfoBase Conference Papers.

1025. Can-Uc, B., Rangel-Rojo, R., Rodriguez-Fernandez, L., Oliver, A.Non-thermal polarization selectable nonlinear response of elon-gated ag nanoparticles embedded in SiO2 studied by the Z-scantechnique, (2013) Optics InfoBase Conference Papers.

1024. Can-Uc, B., Rangel-Rojo, R., Marquez, H., Rodriguez-Fernandez, L.,Oliver, A. Nanoparticle containing channel waveguides producedby a multi-energy masked ion-implantation process, 2015 OpticsExpress 23 (3), pp. 3176-3185

1023. Can-Uc, B; Rangel-Rojo, R; Pena-Ramirez, A; de Araujo, CB; Baltar,HTMCM; Crespo-Sosa, A; Garcia-Betancourt, ML; Oliver, A Non-linear optical response of platinum nanoparticles and platinum


ions embedded in sapphire, OPTICS EXPRESS, 24 (9):9955-9965;10.1364/OE.24.009955 MAY 2 2016

1022. Crespo-Sosa, A., Mota-Santiago, P.E., Jimenez-Hernandez, J.L., (...),Reyes-Esqueda, J.A., Oliver, A. Metallic nano particles embeddedin sapphire, 2015 Materials Research Society SymposiumProceedings 1769, pp. 1-10

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1021. Negishi, Y.; Takasugi, Y.; Sato, S.; Yao, H.; Kimura, K.; Tsukuda, T.;Magic-Numbered Aun Clusters Protected by Glutathione Monola-yers (n = 18, 21, 25, 28, 32, 39): Isolation and Spectroscopic Cha-racterization, J. Am. Chem. Soc. 126, 6518 (2004)

1020. Katsuyuki Nobusada, Electronic Structure and Photochemical Pro-perties of a Monolayer-Protected Gold Cluster, J. Phys. Chem. B,108 11904 (2004)

1019. Negishi, Y.; Nobusada, K.; Tsukuda, T., Glutathione-Protected GoldClusters Revisited: Bridging the Gap between Gold(I)-Thiolate Com-plexes and Thiolate-Protected Gold Nanocrystals , J. Am. Chem.Soc. 127, 5261 (2005)

1018. G. Barcaro, A. Fortunelli, The Interaction of Coinage Metal Clusterswith the MgO(100) Surface, J. Chem. Theory and Comput. 1, 972(2005)

1017. Hiroshi Yao, Kanae Miki, Naoki Nishida, Akito Sasaki, and KeisakuKimura, Large Optical Activity of Gold Nanocluster EnantiomersInduced by a Pair of Optically Active Penicillamines, J. Am. Chem.Soc. 127, 15536 (2005)

1016. Goldsmith, MR; George, CB; Zuber, G; Naaman, R; Waldeck, DH;Wipf, P; Beratan, DN, The chiroptical signature of achiral metalclusters induced by dissymmetric adsorbates, Phys Chem ChemPhys 8, 63 (2006)

1015. Yasushi Yanagimoto, Yuichi Negishi, Hisashi Fujihara, and TatsuyaTsukuda, Chiroptical Activity of BINAP-Stabilized Undecagold Clus-ters, J. Phys. Chem. B 110, 11611 (2006)

1014. Qi H, Hegmann T.; Formation of periodic stripe patterns in nematicliquid crystals doped with functionalized gold nanoparticles, J ofMaterials Chemistry 16, 4197 (2006)

1013. Iwasa, T.; Nobusada, K.; Theoretical Investigation of OptimizedStructures of Thiolated Gold Cluster [Au25(SCH3)18]+, J. Phys.Chem. C 111, 45 (2007)

1012. A. Eisfeld, R. Kniprath, and J. S. Briggs, Theory of the absorptionand circular dichroism spectra of helical molecular aggregates, J.Chem. Phys. 126, 104904 (2007)

1011. Nishida, N.; Yao, H.; Ueda, T.; Sasaki, A.; Kimura, K. Synthesis andChiroptical Study of D/L-Penicillamine-Capped Silver Nanoclusters,Chem. Mater. 19, 2831 (2007)

1010. Shichibu Y, Negishi Y, Tsunoyama H, Kanehara M, Teranishi T, Tsu-kuda T, Extremely high stability of glutathionate-protected Au-25clusters against core etching, Small 3, 835 (2007)

1009. H. Behar-Levy, O. Neumann, R. Naaman, D. Avnir, Chirality Induc-tion in Bulk Gold and Silver, Advanced Materials 19, 1207 (2007)

1008. Ikeda, K.; Kobayashi, Y.; Negishi, Y.; Seto, M.; Iwasa, T.; Nobusada,K.; Tsukuda, T.; Kojima, N., Thiolate-Induced Structural Reconstruc-tion of Gold Clusters Probed by 197Au Mossbauer Spectroscopy,J. Am. Chem. Soc. 129, 7230 (2007)

1007. Bovet, N.; McMillan, N.; Gadegaard, N.; Kadodwala, M., Supramo-lecular Assembly Facilitating Adsorbate-Induced Chiral ElectronicStates in a Metal Surface, J. Phys. Chem. B111, 10005 (2007)

1006. Yao, H.; Fukui, T.; Kimura, K.; Chiroptical Responses of D-/L-Penicillamine-Capped Gold Clusters under Perturbations of Tem-perature Change and Phase Transfer, J. Phys. Chem. C 111, 14968(2007)

1005. Hegmann, T.; Qi, H. (UNIVERSITY OF MANITOBA), Metal Nano-particle and use thereof for inducing chirality in liquid crys-tal phases, Patent Cooperation Treaty Application, Jul 2007patno:WO07079585

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1003. T. Tsukuda, H. Hironori, Y. Negishi, Systematic sintesys of mono-layer proected gold clusters with well-de�ned chemical composi-tion, page 373, in Metal Nanoclusters in Catalysis and MaterialsScience: The Issue of Size Control, Editors: B. Corain, G. Schmid, NToshima , Elsevier Science (2007)

1002. Qi H, ONeil J, Hegmann T, Chirality transfer in nematic liquid crys-tals doped with (S)-naproxen-functionalized gold nanoclusters: aninduced circular dichroism study, J of Materials Chemistry 18, 374(2008)



999. Chaki, N. K.; Negishi, Y.; Tsunoyama, H.; Shichibu, Y.; Tsukuda,T. Ubiquitous 8 and 29 kDa Gold:Alkanethiolate Cluster Com-pounds: Mass-Spectrometric Determination of Molecular Formulasand Structural Implications, J. Am. Chem. Soc. 130, 8608 (2008)

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996. Qi, H.; Hegmann, T. Postsynthesis Racemization and Place Exchan-ge Reactions. Another Step To Unravel the Origin of Chirality forChiral Ligand-Capped Gold Nanoparticles, J. Am. Chem. Soc. 130,14201 (2008)

995. Yao, H.; Fukui, T.; Kimura, K. Asymmetric Transformation ofMonolayer-Protected Gold Nanoclusters via Chiral Phase Transfer,J. Phys. Chem. C. 112 16281 (2008)


993. Lin CAJ, Yang TY, Lee CH et al. Synthesis, Characterization, andBioconjugation of Fluorescent Gold Nanoclusters toward BiologicalLabeling Applications, ACS Nano 3, 395 (2009)

992. Ho, S., Critchley, K., Lilly, G.D., Shim, B., Kotov, N.A. Free �ow elec-trophoresis for the separation of CdTe nanoparticles, Journal ofMaterials Chemistry 19, 1390 (2009)

991. Wu, Z., Gayathri, C., Gil, R.R., Jin, R., Probing the structure andcharge state of glutathione-capped Au 25(SG)18 clusters by NMRand mass spectrometry, Journal of the American Chemical Society131, 6535 (2009)

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984. Lin, C.-A.J., Lee, C.-H., Hsieh, J.-T., Yu, W.-C., Yang, H.-Z., Li, J.K.,Sperling, R., (...), Chang, W.H. Synthesis and surface modi�cationof highly �uorescent gold nanoclusters and their exploitation forcellular labeling, 2010 Progress in Biomedical Optics and Imaging- Proceedings of SPIE 7575, art. no. 757506

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982. Z Fan, A O. Govorov Plasmonic Circular Dichroism of Chiral MetalNanoparticle Assemblies, NANO LETTERS 10 (7): 2580-2587 JUL2010

981. Yao, H; Saeki, M; Kimura, K, Induced Optical Activity in Boronic-Acid-Protected Silver Nanoclusters by Complexation with ChiralFructose, JOURNAL OF PHYSICAL CHEMISTRY C 114 (38): 15909-15915 SEP 30 2010

980. Morales-Saavedra, O.G., Zanella, R. Structural and photophysicalevaluation of Au-NPs/SiO2-based inorganic-inorganic sonogel hy-brid composites, (2010) Materials Chemistry and Physics, 124 (1)pp. 816-830.

979. Zhang, M.-X., Cui, R., Tian, Z.-Q., Zhang, Z.-L., Pang, D.-W. Kinetics-controlled formation of gold clusters using a quasi-biological sys-tem, (2010) Advanced Functional Materials, 20 (21) pp. 3673-3677.

978. Oh, H.S., Liu, S., Jee, H., Baev, A., Swihart, M.T., Prasad, P.N. Chi-ral poly(�uorene-alt-benzothiadiazole) (PFBT) and nanocomposi-tes with gold nanoparticles: Plasmonically and structurally enhan-ced chirality, (2010) Journal of the American Chemical Society, 132(49) pp. 17346-17348.

977. Li, Y., Yu, D., Dai, L., Urbas, A., Li, Q. Organo-soluble chiral thiol-monolayer-protected gold nanorods, (2011) Langmuir, 27 (1) pp.98-103.

976. Autschbach, J., Nitsch-Velasquez, L., Rudolph, M. Time-dependentdensity functional response theory for electronic chiroptical pro-perties of chiral molecules, (2011) Topics in Current Chemistry, 298pp. 1-98.

975. Xia, YH; Zhou, YL; Tang, ZY Chiral inorganic nanoparticles: origin,optical properties and bioapplications, NANOSCALE 3 (4): 1374-1382 2011

974. Qi, H; Shopsowitz, KE; Hamad, WY; MacLachlan, MJ Chiral NematicAssemblies of Silver Nanoparticles in Mesoporous Silica Thin Films,JOURNAL OF THE AMERICAN CHEMICAL SOCIETY 133 (11): 3728-3731MAR 23 2011

973. Hendler, N; Fadeev, L; Mentovich, ED; Belgorodsky, B; Gozin, M;Richter, S Bio-inspired synthesis of chiral silver nanoparticles inmucin glycoprotein-the natural choice, CHEMICAL COMMUNICA-TIONS 47 (26): 7419-7421 2011


971. Guerrero-Martinez, A; Alonso-Gomez, JL; Auguie, B; Cid, MM; Liz-Marzan, LM From individual to collective chirality in metal nano-particles, NANO TODAY 6 (4): 381-400 2011

970. Zhu, MZ; Qian, HF; Meng, XM; Jin, SS; Wu, ZK; Jina, RC Chiral Au(25)Nanospheres and Nanorods: Synthesis and Insight into the Originof Chirality, NANO LETTERS 11 (9): 3963-3969 2011

969. Sun, Y; Balasubramanian, K; Rao, TUB; Pradeep, T First PrinciplesStudies of Two Luminescent Molecular Quantum Clusters of Silver,Ag(7)(H(2)MSA)(7) and Ag(8)(H(2)MSA)(8), Based on ExperimentalFluorescence Spectra, JOURNAL OF PHYSICAL CHEMISTRY C 115 (42):20380-20387 2011

968. Wang, C., Li, J., Amatore, C., Chen, Y., Jiang, H., Wang, X.-M. Goldnanoclusters and graphene nanocomposites for drug delivery andimaging of cancer cells, 2011 Angewandte Chemie - InternationalEdition 50 (49), pp. 11644-11648

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966. Yao, H; Saeki, M; Sasaki, A Boronic Acid-Protected Gold ClustersCapable of Asymmetric Induction: Spectral Deconvolution Analysisof Their Electronic Absorption and Magnetic Circular Dichroism,LANGMUIR, 28 (8):3995-4002; 10.1021/la204731a FEB 28 2012

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957. Rathinaraj, P; Lee, K; Park, SY; Kang, IK Targeted images of KB cellsusing folate-conjugated gold nanoparticles, Nanoscale ResearchLetters, 10 10.1186/s11671-014-0725-y JAN 21 2015


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954. Rathinaraj, P., Lee, K., Choi, Y., (...), Kwon, O.H., Kang, I.-K. Tar-geting and molecular imaging of HepG2 cells using surface-functionalized gold nanoparticles, 2015 Journal of NanoparticleResearch 17 (7), 311

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873. G. Ba�ou, R. Quidant, and C. Girard, Heat generation in plasmo-nic nanostructures: In�uence of morphology, Appl. Phys. Lett. 94,153109 (2009)

872. C Ungureanu, R G Rayavarapu, S Manohar, T G. van Leeuwen Dis-crete dipole approximation simulations of gold nanorod opticalproperties: Choice of input parameters and comparison with ex-periment, J. Appl. Phys. 105 102032 (2009)

871. Alonso-Huitron, JC; Acosta-Zepeda, C; Batina, N; Acosta-Garcia,MC; Castillo-Ocampo, P; Haro-Poniatowski, E UV-laser-inducedmodi�cations through a single slit on quasi-percolated silver na-nostructured �lms, Radiation E�ects and Defects in Solids 164, 438(2009)

870. Veletanlic, E; Goh, MC Polyelectrolyte Multilayer Films as Templa-tes for the In Situ Photochemical Synthesis of Silver Nanoparticles,J. Phys. Chem. C 113,18020 (2009)

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868. Nguyen, VL; Nguyen, DC; Hayakawa, T; Hirata, H; Lakshminaraya-na, G; Nogami, M, The synthesis and characterization of platinumnanoparticles: a method of controlling the size and morphology,Nanotechnology 21, 035605 (2010)

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866. Knauer, A; Steinfeld, N; Romanus, H; Kohler, J. M Schnelle Mis-chung in Mikro�uidsegmenten fur die Herstellung binarer Metall-Nanopartikel mit enger Grobenverteilung, Proceedings: MikroSys-temTechnik KONGRESS 2009

865. Long, N.V., Chien, N.D., Hayakawa, T., Hirata, H., Lakshminarayana,G., Nogami, M., The synthesis and characterization of platinumnanoparticles: A method of controlling the size and morphology,Nanotechnology 21, art. no. 035605 (2010)



862. Magdalena Stobiecka, Kaitlin Coopersmith, Maria Hepel Reso-nance elastic light scattering (RELS) spectroscopy of fast non-Langmuirian ligand-exchange in glutathione-induced gold nano-particle assembly, Journal of Colloid and Interface Science, 350(1): 168-177 OCT 1 2010

861. Barnard, AS Modelling of nanoparticles: approaches to morpho-logy and evolution, REPORTS ON PROGRESS IN PHYSICS 73 (8): Art.No. 086502 AUG 2010

860. Herrera-Becerra, R; Rius, JL; Zorrilla, C Tannin biosynthesis of ironoxide nanoparticles, APPLIED PHYSICS A-MATERIALS SCIENCE &PROCESSING 100 (2): 453-459 Sp. Iss. SI AUG 2010

859. Messaoud, M., Chadeau, E., Brunon, C., Ballet, T., Rappenne, L.,Roussel, F., Leonard, D., Oulahal, N., Langlet, M. Photocatalytic ge-neration of silver nanoparticles and application to the antibacte-rial functionalization of textile fabrics, (2010) Journal of Photoche-mistry and Photobiology A: Chemistry, 215 (2-3) pp. 147-156.

858. Tang, B; Xu, SP; Jian, XG; Tao, JL; Xu, WQ Real-Time, in-Situ, Extin-ction Spectroscopy Studies on Silver-Nanoseed Formation, APPLIEDSPECTROSCOPY 64 (12): 1407-1415 DEC 2010

857. Michael Quinten Optical Properties of Nanoparticle Systems: Mieand beyond, 2011 Wiley-VCH Verlag GmbH & Co. KGaA, Print ISBN:9783527410439, DOI: 10.1002/9783527633135

856. Stobiecka M, Hepel M Multimodal coupling of optical transitionsand plasmonic oscillations in rhodamine B modi�ed gold nano-particles, PHYSICAL CHEMISTRY CHEMICAL PHYSICS 13, 1131 (2011)

855. Wang, L., Kiya, A., Okuno, Y., Niidome, Y., Tamai, N. Ultrafast spec-troscopy and coherent acoustic phonons of Au-Ag core-shell na-norods, (2011) Journal of Chemical Physics, 134 (5), art. no. 054501

854. Large, N; Aizpurua, J; Lin, V K; Teo, S L; Marty, R; Tripathy, S;Mlayah, A Plasmonic properties of gold ring-disk nano-resonators:�ne shape details matter, Optics Express 19, 5587–5595 (2011)

853. Cook, WD; Nghiem, QD; Chen, Q; Chen, F; Sangermano, M Simul-taneous Photoinduced Silver Nanoparticles Formation and Catio-nic Polymerization of Divinyl Ethers, MACROMOLECULES 44 (11):4065-4071 JUN 14 2011

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851. Baida, H; Christo�los, D; Maioli, P; Crut, A; Del Fatti, N; Vallee,F Surface plasmon resonance spectroscopy of single surfactant-stabilized gold nanoparticles, EUROPEAN PHYSICAL JOURNAL D 63(2): 293-299 2011


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848. Newhouse, RJ; Zhang, JZ Optical Properties and Applications ofShape-Controlled Metal Nanostructures, REVIEWS IN PLASMONICS2010, 205-238; 2012

847. De Matos, R.A., Da Silva Cordeiro, T., Samad, R.E., Vieira Jr., N.D.,Courrol, L.C. Green synthesis of gold nanoparticles of di�erentsizes and shapes using agar-agar water solution and femtosecondpulse laser irradiation, (2012) Applied Physics A: Materials Scienceand Processing, 109 (3) pp. 737-741


845. Flores-Lopez, NS; Castro-Rosas, J; Ramirez-Bon, R; Mendoza-Cordova, A; Larios-Rodriguez, E; Flores-Acosta, M Synthesis andproperties of crystalline silver nanoparticles supported in natu-ral zeolite chabazite, JOURNAL OF MOLECULAR STRUCTURE, 1028110-115; NOV 28 2012


843. Patala, S; Marks, LD; de la Cruz, MO Elastic Strain Energy E�ectsin Faceted Decahedral Nanoparticles, J Phys Chem C, 117 (3):1485-1494; 10.1021/jp310045g JAN 24 2013

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839. Ahmad, N., Sharma, S. Biomediated AgNPS from some ethnobo-tanical weeds-Pyllanthus amarus, 2011, International Journal ofGreen Nanotechnology: Biomedicine 3 (2) , pp. 109-117

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837. Sahu, N; Soni, D; Chandrashekhar, B; Sarangi, BK; Satpute, D;Pandey, RA Synthesis and characterization of silver nanoparti-cles using Cynodon dactylon leaves and assessment of their an-tibacterial activity, BIOPROCESS AND BIOSYSTEMS ENGINEERING,36 (7):999-1004, 2013


835. Gowri, S., Gandhi, R.R., Sundrarajan, M. Green synthesis of tin oxidenanoparticles by Aloe vera: Structural, optical and antibacterialproperties, 2013, Journal of Nanoelectronics and Optoelectronics8 (3) , pp. 240-249


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832. Abid, M; Abid, M; Brasselet, S Double quantum light emission fromgold nanowires and interacting gold nanospheres, Editor(s): Stock-man MI in PLASMONICS: METALLIC NANOSTRUCTURES AND THEIROPTICAL PROPERTIES XI, 8809 10.1117/12.2016939 2013


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828. Vadlapudi, V., Kaladhar, D.S.V.G.K., Behara, M., Sujatha, B., Naidu,G.K. Synthesis of green metallic nanoparticles (NPs) and appli-cations, Oriental Journal of Chemistry Volume 29, Issue 4, 2013,Pages 1589-1595

827. Abid, M., Abid, M., Brasselet, S Double quantum light emission fromgold nanowires and interacting gold nanospheres, Proceedings ofSPIE - The International Society for Optical Engineering Volume8809, 2013, Article number 880913 Plasmonics: Metallic Nanos-tructures and Their Optical Properties XI; San Diego, CA; UnitedStates; 25 August 2013 through 29 August 2013; Code 104978

826. Dhanasekaran, V; Soundaram, N; Kim, SI; Chandramohan, R; Mant-ha, S; Saravanakumar, S; Mahalingam, T Optical, electrical and mi-crostructural studies of monoclinic CuO nanostructures synthesi-zed by a sol-gel route, NEW JOURNAL OF CHEMISTRY, 38 (6):2327-2333; 10.1039/c4nj00084f JUN 2014

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824. Ali, S., Iqbal, Y., Ajmal, M., Gonella, F., Cattaruzza, E., Quaranta,A Field-driven di�usion of transition metal and rare-earth ions insilicate glasses, Journal of Non-Crystalline Solids Volume 405, 1December 2014, Pages 39-44

823. Dubrovin, V.D., Ignatiev, A.I., Nevedomskii, V.M., Nikonorov, N.V., Si-dorov, A.I., Tsekhomskii, V.A. The in�uence of synthesis conditionsand ultraviolet irradiation on the morphology and concentration ofsilver nanocrystals in photothermo-refractive glasses, Glass Tech-nology: European Journal of Glass Science and Technology Part AVolume 55, Issue 6, 1 December 2014, Pages 191-195

822. Koehler, JM; Visaveliya, N; Knauer, A Controlling formation andassembling of nanoparticles by control of electrical charging, po-larization, and electrochemical potential, NANOTECHNOLOGY RE-VIEWS, 3 (6):553-568; 10.1515/ntrev-2014-0006 DEC 2014

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820. Gong, X., Tang, J., Ji, Y., Wu, B., Wu, H., Liu, A. Adjustable plas-monic optical properties of hollow gold nanospheres monolayersand LSPR-dependent surface-enhanced Raman scattering of ho-llow gold nanosphere/graphene oxide hybrids, 2015 RSC Advances5 (53), pp. 42653-42662

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816. Roopan, S.M., Devi Rajeswari, V., Kalpana, V.N., Elango, G. Biotech-nology and pharmacological evaluation of Indian vegetable cropLagenaria siceraria: an overview, 2016 Applied Microbiology andBiotechnology 100 (3), pp. 1153-1162

815. Mu, HW; Lv, JW; Liu, ZT; Zheng, SJ; Yang, L; Sun, T; Liu, Q; Liu, COptical properties of local surface plasmon resonance in Ag/ITOsliced nanosphere by the discrete dipole approximation, 2016 Ap-plied Physics A: Materials Science and Processing 122 (4), 419

814. Pineda-Leon, H.A., Gutierrez-Heredia, G., De Leon, A., (...), Flores-Acosta, M., Castillo, S.J. Comparative study of PbS thin �lms growthby two di�erent formulations using chemical bath deposition,A2016 Chalcogenide Letters 13 (4), 3

813. Chao, LM; Bao, LH; Wei, W; Tegus, O; Zhang, ZD E�ects of Nanopar-ticle Shape and Size on Optical Properties of LaB6, PLASMONICS,11 (3):697-701 2016

812. Knauer, A., Koehler, J.M. Explanation of the size dependent in-plane optical resonance of triangular silver nanoprisms, 2016 Phy-sical Chemistry Chemical Physics 18 (23), pp. 15943-15949

811. Mohan, DB Fabrication of plasmonically active Ag thin �lms in theregion of quasi-amorphous to nanocrystalline and its applicationtowards SERS, MATERIALS TODAY-PROCEEDINGS, 2 (9):4436-4441;10.1016/j.matpr.2015.10.045 A 2015

810. Kamal, SSK; Vimala, J; Sahoo, PK; Ghosal, P; Durai, L E�ect of Ag+ion Concentration on the Reaction Kinetics and Shape of Nanopar-ticles Synthesised by Green Chemical Approach, DEFENCE SCIENCEJOURNAL, 66 (4):368-373; SI 10.14429/dsj.66.10210 JUL-AUG 2016

809. Kohnehpoushi, S., Eskandari, M., Nejand, B.A., Ahmadi, V. Nume-rical calculation of plasmonic �eld absorption enhancement inCdSe-quantum dot sensitized ZnO nanorods by Ag nanoparticleperiodic arrays, 2016 Optical Materials 62, pp. 90-94

808. Dousti, MR; Amjad, RJ Plasmon Assisted Luminescence in RareEarth Doped Glasses, REVIEWS IN PLASMONICS 2015, 2015 339-386; Book Series: Reviews in PlasmonicsTIPO B (1):

807. Romo-Herrera, JM; Gonzalez, AL; Guerrini, L; Castiello, FR;Alonso-Nunez, G; Contreras, OE; Alvarez-Puebla, RA A studyof the depth and size of concave cube Au nanoparticles ashighly sensitive SERS probes, NANOSCALE, 8 (13):7326-7333;10.1039/c6nr01155a 2016

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806. Qian, HF; Zhu, Y; Jin, RC Isolation of Ubiquitous Au-40(SR)(24) Clus-ters from the 8 kDa Gold Clusters, J. Am. Chem. Soc. 132 (13): 45832010

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804. Lopez-Acevedo, O; Tsunoyama, H; Tsukuda, T; Hakkinen, H; Ai-kens, CM Chirality and electronic structure of the thiolate-protectedAu38 nanocluster, J. Am. Chem. Soc. 132, 8210 (2010)

803. J F. Parker, C A. Fields-Zinna, R W. Murray, The Story of a Mo-nodisperse Gold Nanoparticle: Au25L18, Acc. Chem. Res., ArticlesASAP (As Soon As Publishable) Publication Date (Web): July 2, 2010(Article) DOI: 10.1021/ar100048c

802. N Cathcart, V Kitaev Silver Nanoclusters: Single-Stage ScaleableSynthesis of Monodisperse Species and Their Chirooptical Proper-ties, J. Phys. Chem. C 114, 16010-16017 2010

801. Angel, L.A., Majors, L.T., Dharmaratne, A.C., Dass, A. Ion mobilitymass spectrometry of Au25(SCH2CH 2Ph)18 nanoclusters, (2010)ACS Nano, 4 (8) 4691-4700.

800. Wu ZK, Chen J, Jin RC One-Pot Synthesis of Au-25(SG)(18) 2-and 4-nm Gold Nanoparticles and Comparison of Their Size-DependentProperties, Adv. Functional Materials 21, 177-183, JAN 7 2011

799. Autschbach, J., Nitsch-Velasquez, L., Rudolph, M. Time-dependentdensity functional response theory for electronic chiroptical pro-perties of chiral molecules, (2011) Topics in Current Chemistry, 2981-98.

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797. Qi, H; Shopsowitz, KE; Hamad, WY; MacLachlan, MJ Chiral NematicAssemblies of Silver Nanoparticles in Mesoporous Silica Thin Films,J. Am. Chem. Soc. 133 (11): 3728-3731 MAR 23 2011

796. Wu, D., Zhang, X.-D., Liu, P.-X., Zhang, L.-A., Fan, F.-Y., Guo, M.-L. Gold nanostructure: Fabrication, surface modi�cation, targetingimaging, and enhanced radiotherapy, 2011 Current Nanoscience 7(1), 110-118

795. Li MN, Du DY, Yang GS, Li SL, Lan YQ, Shao KZ, Qin JS, Su ZM 3DChiral Microporous (10,3)-a Topology Metal-Organic FrameworkContaining Large Helical Channels, Crystal Growth & Design 11,2510-2514 2011


793. Zhu, M., Qian, H., Meng, X., Jin, S., Wu, Z., Jin, R. Chiral Au25 na-nospheres and nanorods: Synthesis and insight into the origin ofchirality, Nano Letters 11 (9), 3963-3969 2011

792. Forster, M., Dyer, M.S., Persson, M., Raval, R. Tailoring homochi-rality at surfaces: Going beyond molecular handedness, J. Am.Chem. Soc. 133 (40), 15992-16000 2011

791. Jiang, D.-E. Staple �tness: A concept to understand and predict thestructures of thiolated gold nanoclusters, Chemistry - A EuropeanJournal 17 (44), 12289-12293, 2011

790. Qian, H., Zhu, M., Gayathri, C., Gil, R.R., Jin, R. Chirality in goldnanoclusters probed by NMR spectroscopy, ACS Nano 5 (11) , 8935-8942, 2011

789. Ben Moshe, A; Szwarcman, D; Markovich, G Size Dependence ofChiroptical Activity in Colloidal Quantum Dots, ACS NANO 5 (11):9034-9043 2011

788. Mansfeld, D., Miersch, L., Ru�er, T., Schaarschmidt, D., Lang, H.,Bohle, T., Tro�, R.W., (...), Mehring, M. From Bi22O26 to chiralligand-protected Bi 38O45-based bismuth oxido clusters, 2011Chemistry - A European Journal 17 (52) , 14805-14810


787. Yao, H., Kitaoka, N., Sasaki, A. Chemical transformation of chi-ral monolayer-protected gold clusters: Observation of ligand sizee�ects on optical and chiroptical responses, Nanoscale 4 (3) , 955-963, 2012

786. Wang, J.-P., Yan, L.-K., Yang, G.-C., Guan, W., Su, Z.-M. TDDFT studieson the structures and ECD spectra of chiral bisarylimidos bearingdi�erent lengths of o-alkoxy chain-substituted polyoxomolybda-tes, 2012 Journal of Molecular Graphics and Modelling 35 , 49-56

785. Hakkinen, H The gold-sulfur interface at the nanoscale, NatureChem., 4 (6):443-455; 10.1038/NCHEM.1352 JUN 2012

784. Liu, HL; Ye, YJ; Chen, J; Lin, DY; Jiang, Z; Liu, ZJ; Sun, B; Yang, LB;Liu, JH In Situ Photoreduced Silver Nanoparticles on Cysteine: AnInsight into the Origin of Chirality, Chemistry-A European Journal,18 (26):8037-8041; 10.1002/chem.201200397 JUN 2012

783. Aikens, C.M. Modelling small gold and silver nanoparticles withelectronic structure methods, 2012, Molecular Simulation 38 (8-9), 607-614

782. Xie, J., Duan, Y., Che, S., Chirality of metal nanoparticles in chiralmesoporous silica, 2012, Advanced Functional Materials 22 (18) ,3784-3792

781. Qian, H., Zhu, M., Wu, Z., Jin, R. Quantum sized gold nanoclusterswith atomic precision, 2012, Accounts Chem. Res. 45 (9) , 1470-1479

780. Ben-Moshe, A., Govorov, A.O., Markovich, G. Enantioselective synt-hesis of intrinsically chiral mercury sul�de nanocrystals, 2013, An-gewandte Chemie - International Edition 52 (4) , 1275-1279

779. Du, DY; Yan, LK; Su, ZM; Li, SL; Lan, YQ; Wang, EB Chiralpolyoxometalate-based materials: From design syntheses to fun-ctional applications, Coordination Chem Rev, 257 (3-4):702-717;10.1016/j.ccr.2012.10.004 FEB 2013

778. Sang, Y.-M., Yan, L.-K., Ma, N.-N., Wang, J.-P., Su, Z.-M. TDDFTstudies on the determination of the absolute con�gurations andchiroptical properties of strandberg-type polyoxometalates, 2013,Journal of Physical Chemistry A 117 (12) , 2492-2498

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773. Manzoor, D., Pal, S., Krishnamurty, S. In�uence of charge and li-gand on the �nite temperature behavior of gold clusters: A BOMDstudy on Au6 cluster, 2013, Journal of Physical Chemistry C 117(40) , 20982-20990

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766. Zhang, L., Wang, E. Metal nanoclusters: New �uorescent probes forsensors and bioimaging, Nano Today Volume 9, Issue 1, February2014, Pages 132-157

765. Burgi, T. 8.34 Physical and Spectrometric Analysis: Nano-Detectionof Chirality, Comprehensive Chirality Volume 8, September 2012,Pages 657-675

764. Autschbach, J. Calculating Electronic Optical Activity of Coordina-tion Compounds, Comprehensive Inorganic Chemistry II (SecondEdition): From Elements to Applications Volume 9, August 2013,Pages 407-426, (Book Chapter)

763. Nishigaki, J; Koyasu, K; Tsukuda, T Chemically Modi�ed GoldSuperatoms and Superatomic Molecules, CHEMICAL RECORD, 14(5):897-909; SI 10.1002/tcr.201402011 OCT 2014

762. Negishi, Y Precisely Controlled Metal Nanoclusters, Edited by:Matsuo Y; Higuchi M; Negishi Y; Yoshizawa M; Uemura T; TakayaH; Ueno T; Takeuchi M; Yoshimoto S METAL-MOLECULAR ASSEMBLYFOR FUNCTIONAL MATERIALS, 21-28; 10.1007/978-4-431-54370-1-3 2013

761. Liu, X., Hamilton, I.P. Helical gold nanorods as chiral recognitionnanostructures: A relativistic density functional theory study, Jour-nal of the American Chemical Society Volume 136, Issue 51, 24December 2014, Pages 17757-17761

760. Wu, X., Xu, L., Ma, W., Liu, L., Kuang, H. , Yan, W., Wang, L., Xu, C.Gold core-DNA-silver shell nanoparticles with intense plasmonicchiroptical activities, Advanced Functional Materials Volume 25,Issue 6, 11 February 2015, Pages 850-854


758. Barcaro, G; Sementa, L; Fortunelli, A; Stener, M Optical proper-ties of nanoalloys, PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 17(42):27952-27967; 1 2015

757. Ma, LG; Huang, ZH; Duan, YY; Shen, XF; Che, SN Optically acti-ve chiral Ag nanowires, Science China-Materials, 58 (6):441-446;10.1007/s40843-015-0058-x JUN 2015

756. Pichugina, DA; Kuz’menko, NE; Shestakov, AF Ligand-protectedgold clusters: the structure, synthesis and applications, RUSSIANCHEMICAL REVIEWS, 84 (11):1114-1144; 10.1070/RCR4493 2015

755. Yao, H. Monolayer-protected metal nanoclusters with chirality:Synthesis, size fractionation, optical activity and asymmetric trans-formation, 2015 Handbook of Nanoparticlespp. 191-216

754. Niihori, Y; Uchida, C; Kurashige, W; Negishi, Y High-resolution sepa-ration of thiolate-protected gold clusters by reversed-phase high-performance liquid chromatography, PHYSICAL CHEMISTRY CHE-MICAL PHYSICS, 18 (6):4251-4265; (2016)

753. Choi, JK; Haynie, BE; Tohgha, U; Pap, L; Elliott, KW; Leonard, BM;Dzyuba, SV; Varga, K; Kubelka, J; Balaz, M Chirality Inversion of Cd-Se and CdS Quantum Dots without Changing the Stereochemistryof the Capping Ligand, ACS NANO, 10 (3):3809-3815; 10.1021/acs-nano.6b00567 MAR 2016


752. Petty, JT; Sergev, OO; Ganguly, M; Rankine, IJ; Chevrier, DM; Zhang,P A Segregated, Partially Oxidized, and Compact Ag-10 Clusterwithin an Encapsulating DNA Host, JOURNAL OF THE AMERICANCHEMICAL SOCIETY, 138 (10):3469-3477; 10.1021/jacs.5b13124 MAR16 2016

751. Yao, H; Iwatsu, M Water-Soluble Phosphine-Protected Au-11 Clus-ters: Synthesis, Electronic Structure, and Chiral Phase Trans-fer in a Synergistic Fashion, LANGMUIR, 32 (13):3284-3293;10.1021/acs.langmuir.6b00539 APR 5 2016

750. Gong, DJ; Gao, GB; Zhang, MX; Sun, TL Chiral Gold NanoclustersSynthesis, Properties and Applications, PROGRESS IN CHEMISTRY,28 (2-3):296-307; 10.7536/PC150931 MAR 2016

749. Long, TF; Guo, YJ; Lin, M; Yuan, MK; Liu, ZD; Huang, CZ Opticallyactive red-emitting Cu nanoclusters originating from complexa-tion and redox reaction between copper(II) and D/L-penicillamine,NANOSCALE, 8 (18):9764-9770; 10.1039/c6nr01492e 2016

748. Aikens, CM Optical Properties and Chirality, PROTECTED METALCLUSTERS: FROM FUNDAMENTALS TO APPLICATIONS, 9 223-261;10.1016/B978-0-08-100086-1.00009-9 2015, Book Series: Fron-tiers of Nanoscience

747. Fan, Z., Zhang, H., Schreiber, R., (...), Gun’ko, Y.K., Govorov, A.O.Chiral nanostructures with plasmon and exciton resonances, (BookChapter) 2014 in Singular and Chiral Nanoplasmonics pp. 1-55

746. Tang, Q., Jiang, D.-E. Computational Insight into the CovalentOrganic-Inorganic Interface, 2016 Chemistry of Materials 28 (17),pp. 5976-5988


744. Takano, S., Tsukuda, T. Ampli�cation of the Optical Activity of GoldClusters by the Proximity of BINAP, 2016 Journal of Physical Che-mistry Letters 7 (22), pp. 4509-4513

743. Yasukawa, T; Miyamura, H; Kobayashi, S Chiral Ligand-Modi�edMetal Nanoparticles as Unique Catalysts for Asymmetric C-C Bond-Forming Reactions: How Are Active Species Generated?, ACS CA-TALYSIS, 6 (11):7979-7988; 10.1021/acs.catal.6b02446 NOV 2016TIPO B (3):

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741. Molina, B., Sanchez-Castillo, A., Knoppe, S., Garzon, I.L., Burgi,T., Tlahuice-Flores, A. Structures and chiroptical properties of theBINAS-monosubstituted Au 38(SCH3)24 cluster, 2013, Nanoscale 5(22) , 10956-10962


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739. D Zhao, X Chen, Y Liu, C Wu, R Ma, Y An, L Shi, Thermosensitiveand pH-sensitive Au-Pd bimetallic nanocomposites, J Colloid andInterface Science 331, 104 (2009)


737. X Dong, X Ji, H Wu, L Zhao, J Li and W Yang Shape Control of SilverNanoparticles by Stepwise Citrate Reduction, J. Phys. Chem. C 113,6573 (2009)


735. Bernabo, M; Pucci, A; Galembeck, F; Leite, CAD; Ruggeri, G.,Thermal- and Sun-Promoted Generation of Silver NanoparticlesEmbedded into Poly(vinyl alcohol) Films, Macromolecular Mate-rials and engineering 294, 256 (2009)

734. Zhu, J Shi� Fashion of Surface Plasmon Resonances in Non-Spherical Gold Nanoparticles: A Simple Model of Surface PlasmonDynamics, Current Nanoscience 5, 216 (2009)

733. Duan, JS; Park, K; MacCuspie, RI; Vaia, RA; Pachter, R, Optical Pro-perties of Rodlike Metallic Nanostructures: Insight from Theory andExperiment, J. Phys. Chem. C 113, 15524 (2009)

732. V Amendola, O M. Bakr, F Stellacci A Study of the Surface Plas-mon Resonance of Silver Nanoparticles by the Discrete Dipo-le Approximation Method: E�ect of Shape, Size, Structure, andAssembly, Plasmonics Published online: 12 January 2010, DOI10.1007/s11468-009-9120-4

731. E Kowalska, O Omar Prieto Mahaney, R Abe, B Ohtani, Visible-light-induced photocatalysis through surface plasmon excitationof gold on titania surfaces, Phys. Chem. Chem. Phys. 12, 2344(2010)

730. B Khlebtsov, V Khanadeev, N Khlebtsov, Tunable depolarized lightscattering from gold and gold/silver nanorods, Phys. Chem. Chem.Phys., 12 (13): 3210-3218 2010


728. Borensztein Y, Delannoy L, Djedidi A, et al. Monitoring of the Plas-mon Resonance of Gold Nanoparticles in Au/TiO2 Catalyst underOxidative and Reducing Atmospheres, J. Phys. Chem. C 114, 9008(2010).

727. Khlebtsov, NG Anisotropic properties of plasmonic nanoparticles:depolarized light scattering, dichroism, and birefringence, J. Na-nophotonics 4: Art. No. 041587 MAR 4 2010

726. Liu, P; Liu, J; Liu, J; Zhao, X; Xie, J; Wang, Y, Scattering propertiesof an individual metallic nano-spheroid by the incident polarizedlight wave, Optics Communications, 284 (4), p.1076, Feb 2011

725. Yang, P., Portales, H., Pileni, M.-P. Dependence of the localized sur-face plasmon resonance of noble metal quasispherical nanoparti-cles on their crystallinity-related morphologies, (2011) J. ChemicalPhysics, 134 (2), art. no. 024507


723. Som, T., Karmakar, B. Nano silver: Antimony glass hybrid nano-composites and their enhanced �uorescence application,2011 So-lid State Sciences 13 (5), pp. 887-895

722. Kooij, ES; Ahmed, W; Zandvliet, HJW; Poelsema, B Localized Plas-mons in Noble Metal Nanospheroids, J. Phys. Chem. C 115 (21):10321-10332 JUN 2 2011

721. Vouagner, D., Bois, L., Nardou, E., Sirotkin, S., Champagnon, B.,Chassagneux, F. Orientation of spheroid-shaped silver nanoparti-cles in mesostructured silica �lms studied by polarized absorptionand low-frequency Raman spectroscopy, 2011 J. Non-CrystallineSolids 357 (14), pp. 2615-2619


720. DAgostino S, Della Sala F Silver Nanourchins in Plasmonics: Theo-retical Investigation on the Optical Properties of the Branches, J.Phys. Chem. C 115 (24), pp. 11934-11940 2011

719. Reddy, NK; Perez-Juste, J; Pastoriza-Santos, I; Lang, PR; Dhont, JKG;Liz-Marzan, LM; Vermant, J Flow Dichroism as a Reliable Methodto Measure the Hydrodynamic Aspect Ratio of Gold Nanoparticles,ACS Nano 5 (6): 4935-4944 JUN 2011

718. Anghinol�, L; Moroni, R; Mattera, L; Canepa, M; Bisio, F Flexi-ble Tuning of Shape and Arrangement of Au Nanoparticles in 2-Dimensional Self-Organized Arrays: Morphology and PlasmonicResponse, J. Phys. Chem. C 115 (29): 14036-14043 2011

717. Baida, H; Christo�los, D; Maioli, P; Crut, A; Del Fatti, N; Vallee,F Surface plasmon resonance spectroscopy of single surfactant-stabilized gold nanoparticles, Eur. Phys. J. D 63 (2): 293-299 2011

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715. Saldias, C., Leiva, A., Quezada, C., Jaque, P., Gargallo, L., Radic, DStructural e�ects of amphiphilic block copolymers on the gold na-noplates synthesis. Experimental and theoretical study, EuropeanPolymer Journal 47 (10), pp. 1866-1876 2011

714. Brahma, R; Reddy, GM; Lakshmi, PA; Singh, S; Krishna, MG Contro-lled Nanostructuring of Ag Films by Ion Beam Sputter Depositionfor Surface Plasmon Resonance Applications, J. Nanosci. and Na-notechnol. 11 (8): 6843-6851 2011

713. Scotognella, F., Della Valle, G., Srimath Kandada, A.R., Dorfs, D.,Zavelani-Rossi, M., Conforti, M., Miszta, K., Comin, A., Korobchevs-kaya, K., Lanzani, G., Manna, L., Tassone, F. Plasmon dynamicsin colloidal Cu2-xSe nanocrystals, 2011 Nano Letters 11 (11), pp.4711-4717

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Artıculo (citas 10):First-principles calculations of optical properties: application tosilicon clusters, Cecilia Noguez, y S.E. Ulloa, Phys Rev B 56, 9719(1997)

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571. Yo�e AD, Semiconductor quantum dots and related systems: elec-tronic, optical, luminescence and related properties of low dimen-sional systems, Adv Phys 50 (1) 1-208 (2001)

570. Katircioglu S, Erkoc S, Structural and electronic properties of bareand hydrogenated silicon clusters, Physica E 9, 314 (2001)

569. Weissker HC, Furthmuller J, Bechstedt F. Optical properties of Geand Si nanocrystallites from ab initio calculations. II. Hydrogena-ted nanocrystallites, Phys Rev B 65, art. no.-155328 (2002)

568. Weissker HC, Furthmuller J, Bechstedt F., Validity of e�ective-medium theory for optical properties of embedded nanocrysta-llites from ab initio supercell calculations, Phys Rev B 67, art. no.165322 (2003)


567. Weissker HC, Furthmuller J, Bechstedt F., Structural relaxation in Siand Ge nanocrystallites: In�uence on the electronic and opticalproperties, Phys Rev B 67, art. no. 245304 (2003)

566. Katircioglu S, Electronic structure of Ge-5, Ge-17, Ge-5-O, and Ge-5-SiO2 nanoparticles, J of Molecular Structure-THEOCHEM 680,83( 2004)

565. Encyclopedia of Nanoscience and Nanotechnology Vol. 8, Editedby H.S. Nalwa, Oxide Nanoparticles by K.P. Jayadevan, T.Y. Tseng,American Scienti�c Publishers, 2004.

564. Meurice, N. , Sandre, E. , Aslanides, A., Vercauteren, D.P. Sim-ple theoretical estimation of the dielectric strength of gases, IEEETransactions on Dielectrics and Electrical Insulation 11, 946 (2004).

563. Ranber Singh, E�ect of hydrogen on ground state properties ofsilicon clusters (SinHm; n = 11–15, m = 0–4): a density fun-ctional based tight binding study, J. Phys.: Condens. Matter 20(2008) 045226.

562. Mokkath, J.H., Schwingenschlogl, U. Photoabsorption spectraof (Mo/W) at Au12Si60 clusters from time-dependent DFTcalculations, 2013, Journal of Physical Chemistry C 117 (45) , pp.23938-23941

Artıculo (citas 14):Multipolar and Disorder e�ects on the e�ective dielectricproperties of granular composites, Cecilia Noguez, y Ruben G.Barrera, Phys Rev B 57, 302 (1998)

TIPO A (14):561. Shaykevich I.A., Kolesnyk P.V., Optical properties, form of granu-

les and electronic parameters of binary Al/Cr composites, Semi-conductor Physics, Quantum Electronics & Optoelectronics 3, 77(1999).

560. Lazzari R, Simonsen I, Bedeaux D, et al. Polarizability of truncatedspheroidal particles supported by a substrate: model and appli-cations Eur Phys J B 24, 267 (2001)

559. Lazzari R, Simonsen I. GRANFILM: a so�ware for calculating thin-layer dielectric properties and Fresnel coe�cients Thin Solid Films419, 124 (2002)

558. A. R. McGurn, A. R. Day, D. J. Bergman, L. C. Davis, and M. F. Thorpe,Spectral densities of embedded interfaces in composite materials,Phys. Rev. B 70, 144205 (2004)

557. Sampsa Riikonen, Isabel Romero, and F. J. Garcıa de Abajo, Plas-mon tunability in metallodielectric metamaterials, Phys. Rev. B 71,235104 (2005)

556. J Toudert, D Babonneau, S Camelio, T Girardeau, F Yubero, J P Es-pinos and A R Gonzalez-Elipe, Using ion beams to tune the nanos-tructure and optical response of co-deposited Ag : BN thin �lms, J.Phys. D: Appl. Phys. 40, 4614 (2007)

555. Sanchez-Valencia, J. R.; Borras, A.; Barranco, A.; Rico, V. J.; Espinos,J. P.; Gonzalez-Elipe, A. R. Preillumination of TiO2 and Ta2O5 Pho-toactive Thin Films As a Tool to Tailor the Synthesis of CompositeMaterials, Langmuir 24, 9460 (2008).

554. Anghinol�, L; Moroni, R; Mattera, L; Canepa, M; Bisio, F Flexi-ble Tuning of Shape and Arrangement of Au Nanoparticles in 2-Dimensional Self-Organized Arrays: Morphology and PlasmonicResponse, JOURNAL OF PHYSICAL CHEMISTRY C 115 (29): 14036-14043 1 2011


552. Rico-Garcia, JM; Lopez-Alonso, JM; Aradian, A Toy model to des-cribe the e�ect of positional blocklike disorder in metamaterialscomposites, JOURNAL OF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHYSICS, 29 (1):53-67; JAN 2012

551. Taylor, RW; Esteban, R; Mahajan, S; Coulston, R; Scherman, OA;Aizpunia, J; Baumberg, JJ Simple Composite Dipole Model for theOptical Modes of Strongly-Coupled Plasmonic Nanoparticle Aggre-gates, JOURNAL OF PHYSICAL CHEMISTRY C, 116 (47):25044-25051;10.1021/jp308986c NOV 29 2012

550. Pereira, R.M.S., Pereira, P., Smirnov, G., Vasilevskiy, M.I. Probingspatial correlations in a system of polarizable nanoparticles viameasuring its optical extinction spectrum, 2013, EPL 102 (6) , art.no. 67001

549. Pereira, RMS; Borges, J; Pereira, PAS; Smirnov, GV; Vaz, F; Cavaleiro,A; Vasilevskiy, MI Optical response of fractal aggregates of pola-rizable particles, Proceedings of SPIE - The International Societyfor Optical Engineering 9286, 92865M 9286 10.1117/12.20602922014, Proceedings of SPIE

548. Pereira, RMS; Borges, J; Peres, FCR; Pereira, PAS; Smirnov, GV; Vaz,F; Cavaleiro, A; Vasilevskiy, MIE�ect of clustering on the surfaceplasmon band in thin �lms of metallic nanoparticles, 2015 Journalof Nanophotonics 9 (1), 093796

Artıculo (citas 8):Theory of electron energy loss for anisotropic systems: applica-tion to GaN (1010), R. Esquivel-Sirvent y Cecilia Noguez, PhysRev B 58, 7367 – 7372 (1998)

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547. Gavrilenko VI, Wu RQ, Energy loss spectra of group III nitrides ApplPhys Lett 77, 3042 (2000)

546. Djurisic AB, Chan Y, Li EH, Progress in the room-temperature opticalfunctions of semiconductors, Mat Sci Eng R 38, 237 (2002)

545. A.B. Djurisic and E.H. Li, Optical functions of III-V nitrides-Calculations, page 115 in III-Nitride Semiconductors: Optical Pro-perties”, Volume II (Optoelectronic Properities of Semiconductorsand Superlattices) by Mahmoud Omar Manasreh ,Taylor and Fran-cis books, inc (2002)

544. S H Yang, S H Ahn, M S Jeong, K S Nahm, E-K Suh, K Y Lim, Structuraland optical properties of GaN �lms grown by the direct reactionof Ga and NH3 in a CVD reactor, Solid-State Electronics, Volume44, Issue 9, 1 September 2000, Pages 1655-1661.

543. L. Carmella, G. Onida, C. Hogan, Dielectric Response and Electronenergy loss spectra of an oxidized Si(100)-(2x2) surface, (2006)Proceedings of the 39 course of the international school of solidstate physics.

542. C Hogan, M Palummo, R Del Sole, Theory of dielectric screeningand electron energy loss spectroscopy at surfaces, Comptes Ren-dus Physique 10, 560 (2009)

541. Caramella, L; Hogan, C; Onida, G; Del Sole, R Oxidation of di-mers at the Si(100) surface studied by �rst-principles simulationof high-resolution EELS, PHYSICA STATUS SOLIDI B-BASIC SOLIDSTATE PHYSICS 247 (8): 1946-1950 AUG 2010

540. Hogan, C., Caramella, L., Onida, G. Simulation of the oxidationpathway on Si(100) using high-resolution EELS, (2012) PhysicaStatus Solidi (B) Basic Research, 249 (6) pp. 1132-1139.

Artıculo (citas 9):Spectroscopic theoretical study of the atomic reconstruction ofGaN (1010), Cecilia Noguez, Phys Rev B 58, 12641 (1998)

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539. Nahm KS, Yang SH, Ahn SH, Structural and optical characterizationof thick GaN �lms grown by the direct reaction of metal Ga andNH3 in CVD reactor, Korean J of Chemical Eng, 17, 105 (2000)


538. Yang SH, Nahm KS, Hahn YB, Lee YS, Jeong MS, Suh EK, High-temperature vapor-phase growth and characterization of thickGaN by the direct reaction of Ga and NH3, J of the Korean PhysSociety 36, 182 (2000)

537. Yang SH, Ahn SH, Jeong MS, Nahm KS, Suh EK, Lim KY Structuraland optical properties of GaN �lms grown by the direct reactionof Ga and NH3 in a CVD reactor Solid-Sate Electronics 44, 1655(2000)

536. Alexandrov D, Excitons of the structure in wurtzite InxGa1-xN andtheir properties J Cryst Growth 246, 325 (2002)

535. Di Carlo A Microscopic theory of nanostructured semiconductordevices: beyond the envelope-function approximation, SemicondSci Tech 18, R1 (2003)

534. Velasco VR, Gaggero-Sager LM, Tutor J. Tight-binding calculationof the electronic band structure of GaN, AlN and BN (001) idealsurfaces, Surf Sci 529, 267 (2003)

533. A. Pecchia and A. Di Carlo, Atomistic theory of transport in orga-nic and inorganic nanostructures, Rep. Prog. Phys. 67 1497-1561(2004).

532. N. Ouchani, A. Nougaoui, H. Aynaou, D. Bria, E.H. El Boudouti,V.R. Velasco, A. Daoudi, Acoustic waves in (110) layered structures,Surface Science, 602 2107 (2008)

531. Janicki, L., Misiewicz, J., CywiOski, G., (...), Skierbiszewski, C.,Kudrawiec, R. Surface potential barrier in m-plane GaN studiedby contactless electrore�ectance, 2016 Applied Physics Express 9(2), 021002

Artıculo (citas 4):Electron energy-loss spectra of non-polar GaN surfaces CeciliaNoguez, Phys Status Solidi (a) 175, 57 (1999)

TIPO A (4):530. Gutierrez-Sosa A, Bangert U, Harvey AJ, Flavell WR, Jacobs K, Moer-

mann I, Rizzi A, Localised near-band gap studies in nitrides viaEELS, in Inst Phys Conf Ser (169) 255-258: Microscopy of Semi-conducting Materials 2001, Editors A.G Cullis, J.L Hutchinson Taylor& Francis (2002).

529. Gutierrez-Sosa A, Bangert U, Harvey AJ, Fall CJ, Jones R, BriddonPR, Heggie MI, Band-gap-related energies of threading disloca-tions and quantum wells in group-III nitride �lms as derived fromelectron energy loss spectroscopy, Phys Rev B 66, art. no. 035302(2002)

528. Janicki, L., Misiewicz, J., CywiOski, G., (...), Skierbiszewski, C., Ku-drawiec, R. Surface potential barrier in m-plane GaN studied bycontactless electrore�ectance, 2016 Applied Physics Express 9 (2),021002

527. Janicki, L; Misiewicz, J; Cywinski, G; Sawicka, M; Skierbiszewski, C;Kudrawiec, R Surface potential barrier in m-plane GaN studiedby contactless electrore�ectance, APPLIED PHYSICS EXPRESS, 9(2):10.7567/APEX.9.021002 FEB 2016

Artıculo (citas 3):Optical properties of a spheroid-substrate system, C. E. Roman,Cecilia Noguez, R. G. Barrera, Phys Status Solidi (a) 175, 393-398(1999)

TIPO A (3):526. Sun, Y.-S., Jheng, C.-Y. Surface plasmon resonance and dielectric

core e�ects on two-dimensional periodic arrays of silver nanosp-heres in a square lattice embedded at di�erent depths in a silicasubstrate, Japanese Journal of Applied Physics Volume 52, Issue12, December 2013, Article number 122001


524. Hu, C.-C., Tsai, Y.-T., Yang, W., Chau, Y.-F. E�ective Coupling ofIncident Light Through an Air Region into an S-Shape PlasmonicAg Nanowire Waveguide with Relatively Long Propagation Length,Plasmonics Volume 9, Issue 3, June 2014, Pages 573-579

Artıculo (citas 29):Substrate e�ects on the optical properties of a spheroidalnanoparticle, C. E. Roman, Cecilia Noguez, R. G. Barrera PhysRev B, 61, 10427 (2000)

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523. Lazzari R, Simonsen I, Bedeaux D, et al. Polarizability of truncatedspheroidal particles supported by a substrate: model and appli-cations Eur Phys J B 24: (2) 267-284 NOV 2001

522. Dvoynenko, M.M., Goncharenko, A.V., Lozovski, V.Z., Venger, E.F.,Optical spectroscopy of small particles near a surface , Procee-dings of SPIE - The International Society for Optical Engineering938, 41 (2001)

521. Tuncer E, Nettelblad B, Gubanski SM, Non-Debye dielectric rela-xation in binary dielectric mixtures (50-50): Randomness and re-gularity in mixture topology, J Appl Phys 92, 4612 (2002)

520. Lazzari R, Roux S, Simonsen I, et al. Multipolar plasmon resonancesin supported silver particles: The case of Ag/alpha-Al2O3(0001),Phys Rev B 65, art. no. 235424 (2002)

519. Lazzari R, Simonsen I, Jupille J. Onset of charge localisation oncoupling multipolar absorption modes in supported metal parti-cles, Europhys Lett 61, 541 (2003)

518. Lazzari R, Jupille J, Layet JM. Electron-energy-loss channels andplasmon con�nement in supported silver particles, Phys Rev B 68,Art. No. 045428 (2003)

517. A. R. McGurn, A. R. Day, D. J. Bergman, L. C. Davis, and M. F. Thorpe,Spectral densities of embedded interfaces in composite materials,Phys Rev B 70, 144205 (2004)

516. G. Xu, M. Tazawa, P. Jin and S. Nakao, Surface plasmon resonanceof sputtered Ag �lms: substrate and mass thickness dependence,Applied Physics A 80, 1535 (2005)

515. V. Chegel, Yu. Chegel, M. Guiver, A. Lopatynskyi, O. Lopatynska, V.Lozovski, 3D - quanti�cation of biomolecular covers using surfaceplasmon-polariton resonance experiment Sensors and ActuatorsB: Chemical 134, 66 (2008)

514. Abeysinghe, DC; Chen, WB; Zhan, QW; Nelson, RE, Polymer under-layer assisted dewetting of a top metal nano�lm, Nanotechnology20, 475301 (2009)

513. DAgostino, S., Della Sala, F. Electromagnetic modelling of the op-tical behaviour of silver nanospheres on dielectric substrates: Therole of a silver bu�er layer Superlattices and Microstructures 47,55 (2010)

512. Michael Quinten Optical Properties of Nanoparticle Systems: Mieand beyond, 2011 Wiley-VCH Verlag GmbH & Co. KGaA, Print ISBN:9783527410439, DOI: 10.1002/9783527633135

511. Valamanesh, M; Borensztein, Y; Langlois, C; Lacaze, E SubstrateE�ect on the Plasmon Resonance of Supported Flat Silver Nano-particles, OURNAL OF PHYSICAL CHEMISTRY C 115 (7): 2914-2922FEB 24 2011

510. Letnes, PA; Simonsen, I; Mills, DL Substrate in�uence on the plas-monic response of clusters of spherical nanoparticles, PHYSICALREVIEW B 83 (7): Art. No. 075426 FEB 23 2011


509. Mendoza-Galvan, A., Jarrendahl, K., Dmitriev, A., Pakizeh, T., Kall,M., Arwin, H. Optical response of supported gold nanodisks, 2011Optics Express 19 (13), pp. 12093-12107

508. Anghinol�, L; Moroni, R; Mattera, L; Canepa, M; Bisio, F Flexi-ble Tuning of Shape and Arrangement of Au Nanoparticles in 2-Dimensional Self-Organized Arrays: Morphology and PlasmonicResponse, JOURNAL OF PHYSICAL CHEMISTRY C 115 (29): 14036-14043 2011

507. Chau, YF; Jiang, ZH Plasmonics E�ects of Nanometal Embedded ina Dielectric Substrate, PLASMONICS 6 (3): 581-589 2011


505. Berkovitch, N., Ginzburg, P., Orenstein, M Nano-plasmonic anten-nas in the near infrared regime, Journal of Physics CondensedMatter 24 (7) , art. no. 073202 2012

504. Skelton, S.E., Sergides, M., Patel, R., Karczewska, E., Marago, O.M.,Jones, P.H. Evanescent wave optical trapping and transport ofmicro- and nanoparticles on tapered optical �bers, 2012, Jour-nal of Quantitative Spectroscopy and Radiative Transfer 113 (18) ,pp. 2512-2520

503. Lerme, J., Bonnet, C., Broyer, M., Cottancin, E., Manchon, D., Pella-rin, M. Optical properties of a particle above a dielectric interface:Cross sections, benchmark calculations, and analysis of the intrin-sic substrate e�ects, 2013 Journal of Physical Chemistry C 117 (12), pp. 6383-6398

502. Zhou, Y., Huang, A., Li, Y., Ji, S., Gao, Y., Jin, P. Surface plasmon re-sonance induced excellent solar control for VO2 at SiO2 nanorods-based thermochromic foils, 2013, Nanoscale 5 (19) , pp. 9208-9213


500. Lazzari, R., Jupille, J., Cavallotti, R., Simonsen, I. Model-free unrave-ling of supported nanoparticles plasmon resonance modes, (2014)Journal of Physical Chemistry C, 118 (13) pp. 7032-7048.

499. Lazzari, R; Simonsen, I; Jupille, J Interfacial Susceptibilities in Na-noplasmonics via Inversion of Fresnel Coe�cients, PLASMONICS,9 (2):261-272; 10.1007/s11468-013-9619-6 APR 2014

498. Sikdar, D., Rukhlenko, I.D., Cheng, W., Premaratne, M. Tuna-ble Broadband Optical Responses of Substrate-Supported Me-tal/Dielectric/Metal Nanospheres, Plasmonics Volume 9, Issue 3,June 2014, Pages 659-672

497. Niklasson, GA; Lansaker, PC; Li, SY; Granqvist, CG Plasmonic thin�lms for application in improved chromogenic windows, INERACONFERENCE 2015: LIGHT IN NANOSCIENCE AND NANOTECHNO-LOGY (LNN 2015), 682 10.1088/1742-6596/682/1/012003 2016Book Series: Journal of Physics Conference Series

496. Iati, MA; Lidorikis, E; Saija, R, Modeling of Enhanced Electromag-netic Fields in Plasmonic Nanostructures, Edited by: Gucciardi PG;DeLaChapelle ML; LidgiGuigui N; HANDBOOK OF ENHANCED SPEC-TROSCOPY, 101-139; 2016TIPO B (1):

495. C. E. Roman-Velazquez, B. E. Sernelius, Numerical study of thee�ect of structure and geometry on van der Waals forces, J. Phys.A: Math. Theor. 41. (2008) 164008

Artıculo (citas 9):Origin of optical anisotropies of non-polar GaN surfaces, CeciliaNoguez, Phys Rev B, 62, 2681 (2000)

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494. Cappellini, G., Satta, G., Palummo, M., Onida, G. Ab-initio calcula-tion of the optical properties of BN(110) surface, Materials ResearchSociety Symposium - Proceedings 677, AA6.2.1 (2001).

493. Cappellini G, Satta G, Palummo M, et al. Anisotropy of surfaceoptical properties at BN(110): An ab initio study, Phys Rev B 66,art. no. 115412 (2002)

492. Velasco VR, Gaggero-Sager LM, Tutor J. Tight-binding calculationof the electronic band structure of GaN, AlN and BN (001) idealsurfaces, Surf Sci 529, 267 (2003)

491. G. Cappellini, G. Satta. M. Palummo, G. Onida, Ab initio optical pro-perties of BN(110) and GaN(110) surfaces, page 44, in Epioptics-7:Proceedings of the 24th Course of the International School of So-lid State Physics, Erice, Sicily, Italy 20-26 July 2002 (Science andCulture Series-Physics), Ed. A. Cricenti, World Scienti�c PublishingCompany (2004).

490. Velasco VR, Tutor J, Rodriguez-Coppola H, Electronic structure of(001) GaN/AlN quantum wells, Surf Sci 565, 259 (2004)

489. P Weightman, D S Martin, R J Cole and T Farrell, Re�ection aniso-tropy spectroscopy, Rep. Prog. Phys. 68 (2005) 1251

488. L. Ivanova, S. Borisova, H. Eisele, M. Dahne, A. Laubsch, and Ph.Ebert, Surface states and origin of the Fermi level pinning on non-polar GaN(1100) surfaces, Appl. Phys. Lett. 93, 192110 (2008)

487. Eisele, H; Borisova, S; Ivanova, L; Dahne, M; Eberta, P Cross-sectional scanning tunneling microscopy and spectroscopy of non-polar GaN(1(1)over-bar00) surfaces, JOURNAL OF VACUUM SCIENCE& TECHNOLOGY B 28 (4): C5G11-C5G18 JUL 2010

486. Hyun, JM; Kim, H, Magnetic Properties of Intrinsic Vacancies on theGaN(10 (1)over-bar0) Surface: a Density-functional-theory Study,JOURNAL OF THE KOREAN PHYSICAL SOCIETY, 68 (3):420-424;10.3938/jkps.68.420 FEB 2016

Artıculo (citas 4):Multipolar plasma resonances in supported alkali-metal nanopar-ticles, C. Beitia, Y. Borensztein, R. G. Barrera, C. E. Roman, CeciliaNoguez, Physica B 279, 25 (2000)

TIPO A (3):485. Myrach, P; Nilius, N; Freund, HJ, Alkaline Earth versus Noble Metal

Particles on MgO Thin Films: Growth and Optical Properties, J. Phys.Chem. C 113, 18740 (2009)

484. Blaber MG, Harris N, Ford MJ, et al. Optimisation of absorption ef-�ciency for varying dielectric spherical nanoparticles, ConferenceInformation: International Conference on Nanoscience and Nano-technology, DEC 07-08, 2006 Korea Inst Ind Technol, Gwangju,SOUTH KOREA Source: 2006 INTERNATIONAL CONFERENCE ON NA-NOSCIENCE AND NANOTECHNOLOGY, VOLS 1 AND 2 Pages: 61-64Published: 2006

483. Gallo, A., Montini, T., Marelli, M., Minguzzi, A., Gombac, V., Psaro,R., Fornasiero, P., Dal Santo, V. H 2 production by renewables pho-toreforming on Pt-Au/TiO 2 catalysts activated by reduction, 2012,ChemSusChem 5 (9) , pp. 1800-1811TIPO B (1):

482. Borensztein Y, Delannoy L, Djedidi A, et al. Monitoring of thePlasmon Resonance of Gold Nanoparticles in Au/TiO2 Catalystunder Oxidative and Reducing Atmospheres, J Phys Chem C 114,9008 (2010)

Artıculo (citas 2):Optical properties of the cleavage InAs(110) surface, X. Lopez-Lozano, Cecilia Noguez, L. Meza-Montes, Physica Status Solidi (c)0, 2992 (2003)

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481. R. A. Vazquez-Nava, Bernardo S. Mendoza, and C. Castillo, Spin-orbit e�ects on re�ectance anisotropy spectroscopy Phys Rev B70, 165306 (2004)

480. Tomaszewska, N., Walczak, L., Lis, J., Kolodziej, J.J. Surface statesand charge accumulation states on reconstructed InAs(001)surfaces, Surface Science Volume 632, February 2015, Pages103-110

Artıculo (citas 9):Spectral Representation of the Casimir Force Between a Sphereand a Substrate, C. Roman-Velazquez, Cecilia Noguez, C.Villarreal, R. Esquivel-Sirvent. Phys Rev A 69, 042109 (2004)

TIPO A (8):479. Milton, Kimball A. J. Phys A37, R209 (2004).478. J. Barcenas, L. Reyes, and R. Esquivel-Sirvent, Acoustic Casimir

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477. K. A. Milton, Recent Developments in the Casimir E�ect, J. Phys.:Conf. Ser. 161, 012001 (2009)

476. A. Lambrecht and I. G. Pirozhenko, Casimir force between dissi-milar mirrors and the role of the surface plasmons, Phys. Rev. A78, 062102 (2008)


474. Markel, VA, Pole expansion of the Lorenz-Mie coe�cients, JOUR-NAL OF NANOPHOTONICS 4: Art. No. 041555 FEB 4 2010

473. Milton KA, Recent Developments in the Casimir E�ect, Internatio-nal Workshop on 60 Years of the Casimir E�ect, JUN 23-27, 2008Brasilia, BRAZIL, Source: 60 YEARS OF THE CASIMIR EFFECT BookSeries: Journal of Physics Conference Series Volume: 161 Pages: -Published: 2009

472. Intravaia, F., Busch, K. Fluorescence in nonlocal dissipative periodicstructures, 2015 Physical Review A - Atomic, Molecular, and OpticalPhysics 91 (5), 053836TIPO B (1):

471. Villarreal, C., Mochan, W.L., The Casimir e�ect , AIP ConferenceProceedings 857B, 235 (2006)

Artıculo (citas 25):High-multipolar e�ects on the Casimir force: the non-retardedlimit, Cecilia Noguez, C. E. Roman-Velazquez, R. Esquivel-Sirventy C. Villarreal. Europhys Lett 67, 191 (2004)

TIPO A (19):470. Milton, Kimball A. J. Phys A37, R209 (2004)469. V.V. Klimov, A. Lambrecht, Plasmonic nature of van der Waals for-

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Sandoghdar, Coupling of plasmonic nanoparticles to their envi-ronments in the context of van der Waals-Casimir interactions,Phys. Rev. B 77, 155408 (2008)

467. K. A. Milton, Recent Developments in the Casimir E�ect, J. Phys.:Conf. Ser. 161, 012001 (2009)

466. Canaguier-Durand, A; Neto, PAM; Cavero-Pelaez, I; Lambrecht, A;Reynaud, S., Casimir Interaction between Plane and Spherical Me-tallic Surfaces, Phys. Rev. Lett. 102, 230404 (2009)

465. Garcia-Serrano, R; Martinez, G; Hernandez, PH; Palomino-Ovando,M; Cocoletzi, GH Casimir force between two parallel semiconductorslabs: Magnetic �eld e�ects in the Voigt geometry, Physica StatusSolidi b 246, 1357 (2009)

464. Sernelius, B.E., Casimir experiments showing saturation e�ects,Physical Review A 80, 043828 (2009)

463. Yannopapas, V., Vitanov, N.V. Casimir-Polder interaction betweenan atom and a periodic nanostructure, Physical Review A 81, art.no. 042506 (2010)

462. A Lambrecht, A Canaguier-Durand, R Guerout, S Reynaud textit-Casimir e�ect in the scattering approach: correlations betweenmaterial properties, temperature and geometry, Lecture Notes inPhysics 834, pp. 97-127 2011

461. A Canaguier-Durand, P A. Maia Neto, A Lambrecht, S ReynaudThermal Casimir e�ect for Drude metals in the plane-sphere geo-metry, PHYSICAL REVIEW A 82 (1): Art. No. 012511 JUL 29 2010


459. Milton KA, Recent Developments in the Casimir E�ect, Internatio-nal Workshop on 60 Years of the Casimir E�ect, JUN 23-27, 2008Brasilia, BRAZIL, Source: 60 YEARS OF THE CASIMIR EFFECT BookSeries: Journal of Physics Conference Series Volume: 161 Pages: -Published: 2009


457. Canaguier-Durand, A; Gerardin, A; Guerout, R; Neto, PAM; Nesviz-hevsky, VV; Voronin, AY; Lambrecht, A; Reynaud, S Casimir interac-tion between a dielectric nanosphere and a metallic plane, PHY-SICAL REVIEW A 83 (3): Art. No. 032508 MAR 24 2011

456. Olivares-Amaya, R; Stopa, M; Andrade, X; Watson, MA; Aspuru-Guzik, A Anion Stabilization in Electrostatic Environments JOURNALOF PHYSICAL CHEMISTRY LETTERS 2 (7): 682-688 APR 7 2011

455. Sernelius, BE Casimir interactions in graphene systems, EPL 95 (5):10.1209/0295-5075/95/57003 SEP 2011

454. Jones, AC; O’Callahan, BT; Yang, HU; Raschke, MB The ther-mal near-�eld: Coherence, spectroscopy, heat-transfer, and op-tical forces, PROGRESS IN SURFACE SCIENCE, 88 (4):349-392;10.1016/j.progsurf.2013.07.001 DEC 2013

453. Stedman, T., Drosdo�, D., Woods, L.M. Van der Waals interactionsbetween nanostructures: Some analytic results from series expan-sions, Physical Review A 89, Issue 1, 16 January 2014, Article num-ber 012509

452. Milton, K.A., Guerout, R., Ingold, G.-L., Lambrecht, A., Reynaud,S. Negative Casimir entropies in nanoparticle interactions, 2015Journal of Physics Condensed Matter 27 (21), 214003TIPO B (6):


450. C. E. Roman-Velazquez, B. E. Sernelius, Numerical study of thee�ect of structure and geometry on van der Waals forces, J. Phys.A: Math. Theor. 41, (2008) 164008

449. Carlos E Roman-Velazquez and Bo E Sernelius, Non-additive beha-vior of van der Walls dispersion forces due to material and surfacegeometry e�ects, arXiv:0805.1547v1 (2008)

448. Bo E. Sernelius and C. E. Roman-Velazquez, Beyond the simpleproximity force approximation: Geometrical e�ects on the nonre-tarded Casimir interaction, Phys. Rev. A 78, 032111 (2008)

447. Bo E Sernelius and C E Roman-Velazquez Test of the ProximityForce Approximation J. Phys.: Conf. Ser. 161, 012016 (2009)


446. Sernelius BE, Roman-Velazquez CE Test of the ProximityForce Approximation, International Workshop on 60 Yearsof the Casimir E�ect, JUN 23-27, 2008 Brasilia, BRAZIL,Source: 60 YEARS OF THE CASIMIR EFFECT Book Series: Journalof Physics Conference Series Volume: 161 Pages: - Published: 2009

Artıculo (citas 17):Dispersive force between dissimilar materials: Geometricale�ects, Cecilia Noguez, C.E. Roman-Velazquez Phys Rev B 70,195412 (2004)

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445. Milton, Kimball A. J. Phys A37, R209 (2004)

444. D. E. Krause, R. S. Decca, D. Lopez, and E. Fischbach, Experimen-tal Investigation of the Casimir Force beyond the Proximity-ForceApproximation, Phys Rev Lett 98, 050403 (2007)


442. U. Hakanson, M. Agio, S. Kuhn, L. Rogobete, T. Kalkbrenner, V.Sandoghdar, Coupling of plasmonic nanoparticles to their envi-ronments in the context of van der Waals-Casimir interactions,Phys. Rev. B 77, 155408 (2008)

441. A. Lambrecht and I. G. Pirozhenko, Casimir force between dissi-milar mirrors and the role of the surface plasmons, Phys. Rev. A78, 062102 (2008)

440. Blaber MG, Arnold MD, Ford MJ, Search for the Ideal PlasmonicNanoshell: The E�ects of Surface Scattering and Alternatives toGold and Silver, J. Phys. Chem C 13, 3041 (2009)


438. Garcia-Serrano, R; Martinez, G; Hernandez, PH; Palomino-Ovando,M; Cocoletzi, GH Casimir force between two parallel semiconductorslabs: Magnetic �eld e�ects in the Voigt geometry, Physica StatusSolidi b 246, 1357 (2009)

437. Blaber, MG; Arnold, MD; Ford, MJ A review of the optical propertiesof alloys and intermetallics for plasmonics, JOURNAL OF PHYSICS-CONDENSED MATTER 22 (14): Art. No. 143201 APR 14 2010

436. Wang, XF; Chen, KP; Zhao, M; Nolte, DD Refractive index and die-lectric constant evolution of ultra-thin gold from clusters to �lms,OPTICS EXPRESS 18 (24): 24859-24867 NOV 22 2010

435. K. Kolwas, A. Derkachova, Damping rates of surface plasmons forparticles of size from nano- to micrometers; reduction of the non-radiative decay, Journal of Quantitative Spectroscopy and Radia-tive Transfer 114 , pp. 45-55 (2013)

434. Kaltenborn, S; Schneider, HC Plasmon dispersions in simple metalsand Heusler compounds, PHYSICAL REVIEW B, 88 (4):10.1103/Phys-RevB.88.045124 JUL 22 2013

433. Esquivel-Sirvent, R; Escobar, JV Casimir force between liquid me-tals, EPL, 107 (4):10.1209/0295-5075/107/40004 AUG 2014

432. Milton, K.A., Guerout, R., Ingold, G.-L., Lambrecht, A., Reynaud,S. Negative Casimir entropies in nanoparticle interactions, 2015Journal of Physics Condensed Matter 27 (21), 214003

431. Venkataram, PS; Whitton, JD; Rodriguez, AW Nonadditivity of vander Waals forces on liquid surfaces, PHYSICAL REVIEW E, 94(3):10.1103/PhysRevE.94.030801 SEP 22 2016TIPO B (2):

430. C. E. Roman-Velazquez, B. E. Sernelius, Numerical study of thee�ect of structure and geometry on van der Waals forces, J. Phys.A: Math. Theor. 41, (2008) 164008

429. C E Roman-Velazquez, B. E Sernelius, Casimir forces betweennano-structured particles, arXiv:0806.2067v1 (2008)

Artıculo (citas 6):Electronic structure and Re�ectance Anisotropy spectrum ofInAs(110), X. Lopez Lozano, O. Pulci, Cecilia Noguez, K. Fleischer,W. Richter and R. Del Sole. Phys Rev B 71, Art. No. 125337 (2005)

TIPO A (2):428. R. A. Vazquez-Nava, B. S. Mendoza, N. Arzate, Spin-orbit e�ects on

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427. Han, D., Bang, J., Xie, W., Meunier, V., Zhang, S. Phonon-EnabledCarrier Transport of Localized States at Non-Polar SemiconductorSurfaces: A First-Principles-Based Prediction, 2016 J Phys ChemLett 7 (18), pp. 3548-3553TIPO B (4):

426. K Fleischer, G Bussetti, C Goletti, W Richter and P Chiaradia, Opticalanisotropy of Cs nanostructures on III–V(110) surfaces, J. Phys.:Condens. Matter 16 (2004) S4353

425. O. Pulci, M. Marsili, E. Luppi, C. Hogan, V. Garbuio, F. Sottile, R. Ma-gri, R. Del Sole, Electronic excitations in solids: Density functionaland Green’s function theory, physica status solidi (b), 242, 2737(2005)

424. O. Pulci, M. Palummo, M. Marsili, R. Del Sole, Theory of SurfaceOptical Properties, page 161 in Advances in Solid State Physics,Vol. 45 (Advances in Solid State Physics) (Advances in Solid Sta-te Physics) Bernhard Kramer Springer; 1 edition (November 28,2005).

423. Hogan, C., Magri, R., Del Sole, R. Optical properties of GaSb(001)-c(2x6): The role of surface antisite defects, (2010) Physica StatusSolidi (B) Basic Research, 247 (8) pp. 1960-1964.

Artıculo (citas 52):Optical Absorbance of Colloidal Suspensions of Silver PolyhedralNanoparticles, Gonzalez, A. L.; Noguez, C.; Ortiz, G. P.; Rodriguez-Gattorno, G.; J Phys Chem B 109 17512 (2005)

TIPO A (49):422. Railing Chang and P. T. Leung , Nonlocal e�ects on optical and

molecular interactions with metallic nanoshells, Phys. Rev. B 73,125438 (2006)

421. Yu, K.; Kelly, K. L.; Sakai, N.; Tatsuma, T., Morphologies and Sur-face Plasmon Resonance Properties of Monodisperse Bumpy GoldNanoparticles, Langmuir 24, 5849 (2008)

420. J Ling, Y Sang, C Z Huang, Visual colorimetric detection of berbe-rine hydrochloride with silver nanoparticles, Journal of Pharma-ceutical and Biomedical Analysis, 47, 860 (2008)

419. Xu, J; Dong, JF; Nie, QH, Preparation and optical absorption ofAg/SiO2 core-shell spheres, RARE METAL MATERIALS AND ENGI-NEERING 37: 277-280 Suppl. 2 MAY 2008

418. Lipowska, B., Klonkowski, A.M., Energy transfer and surface plas-mon resonance in luminescent materials based on Tb(III) and Agor Au nanoparticles in silica xerogel, Journal of Non-CrystallineSolids 354, 4383 (2008)

417. C Zheng, Y Du, M Feng, H Zhan, Shape dependence of nonlinearoptical behaviors of nanostructured silver and their silica gel glasscomposites, Appl. Phys. Lett. 93, 143108 (2008)

416. J Hua, M Shao, L Cheng, X Wang, Y Fu, DDD Ma, The fabrication ofsilver modi�ed silicon nanowires and their excellent catalysis inthe decomposition of �uorescein sodium, Journal of Physics andChemistry of Solids 70, 192 (2009)




413. Absorbance: Webster’s Timeline History, 1954 - 2007 Edited by PMParker, Icon Group International, Inc (2009) (Reference book)

412. Song, QW; Hu, JY; Xing, JW; Yuen, M; Yao, BG; Li, Y, Evaluation ofIR Radiation Performances of Composite MicroPCMs Incorporatedwith Silver Nano Particles, Textile Bioengineering and informaticssymposium proceedings 1, 2, 178 (2008)

411. Amendola V, Meneghetti M, Size Evaluation of Gold Nanoparticlesby UV-vis Spectroscopy, J. Phys. Chem. C 113, 4277 (2009)

410. Han, CP; Zhang, L; Li, HB, Highly selective and sensitive colori-metric probes for Yb3+ ions based on supramolecular aggregatesassembled from beta-cyclodextrin-4,4 ’-dipyridine inclusion com-plex modi�ed silver nanoparticles, Chem Comm 24, 3545 (2009)


408. Jensen, LL; Jensen, L, Anisotropic linear and nonlinear opticalproperties from anisotropy-controlled metallic nanocomposites, J.Phys. Chem. C 113, 15182 (2009)

407. Matthias Meyer, Mechanisms in Surface Enhanced Raman Scatte-ring, A thesis submitted to the Victoria University of Wellington infull�lment of the requirements for the degree of Doctor of Philo-sophy in Physics, Victoria University of Wellington The MacDiarmidInstitute for Advanced Materials and Nanotechnology 2009

406. Chen, J., Jin, Y., E�ect of water volume on the growth of silver na-noparticles promoted by ultraviolet, Advanced Materials Research96, 55 (2010)



403. Calandra, P., Ruggirello, A., Pistone, A., Liveri, V.T. Structural andOptical Properties of Novel Surfactant Coated TiO2-Ag Based Na-noparticles, (2010) Journal of Cluster Science, 21 (4) pp. 767-778.

402. Yang, P., Portales, H., Pilenia, M.-P. Dependence of the localizedsurface plasmon resonance of noble metal quasispherical nano-particles on their crystallinity-related morphologies, (2011) Journalof Chemical Physics, 134 (2), art. no. 024507

401. Ghosh, D; Sarkar, D; Girigoswami, A; Chattopadhyay, N, A FullyStandardized Method of Synthesis of Gold Nanoparticles ofDesired Dimension in the Range 15 nm-60 nm, JOURNAL OF NA-NOSCIENCE AND NANOTECHNOLOGY 11 (2): 1141-1146 FEB 2011

400. Dakhel, A.A., Henari, F.Z. Optical and structural properties of silvernanoparticles embedded in indium oxide �lms, 2011 InternationalJournal of Nanoscience 10 (3), pp. 433-440


398. Provorse, M.R., Aikens, C.M. Binding of carboxylates to gold na-noparticles: A theoretical study of the adsorption of formate onAu 20, (2012) Computational and Theoretical Chemistry, 987 pp.16-21.

397. Bae, G.-T., Aikens, C.M. Time-dependent density functional theorystudies of optical properties of Ag nanoparticles: Octahedra, trun-cated octahedra, and icosahedra, 2012 Journal of Physical Che-mistry C 116 (18) , pp. 10356-10367

396. Guidez, E.B., Aikens, C.M. Theoretical analysis of the optical exci-tation spectra of silver and gold nanowires, 2012, Nanoscale 4 (14), pp. 4190-4198

395. Bae, G.-T., Aikens, C.M. TDDFT and CIS studies of optical propertiesof dimers of silver tetrahedra, 2012, Journal of Physical ChemistryA 116 (31) , pp. 8260-8269

394. Karvianto; Chow, GM Size-dependent transformation from Ag tem-plates to Au-Ag nanoshells via galvanic replacement reactionin organic medium, JOURNAL OF NANOPARTICLE RESEARCH, 14(10):10.1007/s11051-012-1186-9 OCT 2012

393. Filippo, E., Manno, D., Buccolieri, A., Serra, A. Green synthesis ofsucralose-capped silver nanoparticles for fast colorimetric triethy-lamine detection, 2013, Sensors and Actuators, B: Chemical 178 ,pp. 1-9

392. Kusada, K., Kobayashi, H., Yamamoto, T., Matsumura, S., Su-mi, N., Sato, K., Nagaoka, K., Kubota, Y; Kitagawa, H. Disco-very of face-centered-cubic ruthenium nanoparticles: Facile size-controlled synthesis using the chemical reduction method, 2013, JAm Chem. Soc 135 (15) , pp. 5493-5496

391. Walekar, L.S., Gore, A.H., Anbhule, P.V., Sudarsan, V., Patil, S.R.,Kolekar, G.B. A novel colorimetric probe for highly selective re-cognition of Hg 2+ ions in aqueous media based on inducing theaggregation of CPB-capped AgNPs: Accelerating direct detectionfor environmental analysis, 2013, Analytical Methods 5 (20) , pp.5501-5507


389. Zhu, W.-W., Hu, Q.-Y., Wang, Q., Yan, J. Determination of trace rutinbased on the surface plasmon resonance absorption of silver na-noparticles, Analytical Methods Volume 6, Issue 8, 21 April 2014,Pages 2751-2755

388. Deng, Y., Shi, H., Ming, H., Liu, G., Xi, Z In�uence of the interactionbetween two Ag nanoparticles on optical properties of Ag/PGMEAnanocomposite materials, Journal of Modern Optics Volume 61,Issue 4, 23 February 2014, Pages 271-275

387. Rohit, J.V., Solanki, J.N., Kailasa, S.K. Surface modi�cation of silvernanoparticles with dopamine dithiocarbamate for selective colo-rimetric sensing of mancozeb in environmental samples, Sensorsand Actuators, B: Chemical Volume 200, September 2014, Pages219-226

386. Bettini, S., Pagano, R., Valli, L., Giancane, G. Drastic nickel ion remo-val from aqueous solution by curcumin-capped Ag nanoparticles,Nanoscale Volume 6, Issue 17, 7 September 2014, Pages 10113-10117

385. Guidez, E.B., Aikens, C.M. Quantum mechanical origin of the plas-mon: From molecular systems to nanoparticles, Nanoscale Volume6, Issue 20, 21 October 2014, Pages 11512-11527

384. Kitagawa, H Discovery of the Face-Centered Cubic Ruthenium Na-noparticles: Facile Size-Controlled Synthesis Using the ChemicalReduction Method, CREATION OF NEW METAL NANOPARTICLES ANDTHEIR HYDROGEN-STORAGE AND CATALYTIC PROPERTIES, 59-67;10.1007/978-4-431-55087-7-4 2014


383. Liu, H., Tang, X., Liu, Q. A novel point-of-use water treatment met-hod by antimicrobial nanosilver textile material, Journal of Waterand Health Volume 12, Issue 4, 2014, Pages 670-677

382. Deng, Y., Ming, H., Liu, G., Shi, H. Size dependence of simulatedoptical properties for Cu nanocubes, European Physical Journal DVolume 69, Issue 2, February 2015, Article number 37

381. Chao, L.-M., Bao, L.-H., Tegus, O.Optical response of CeB6 na-noparticles with di�erent sizes and shapes from discrete-dipoleapproximation, 2015 Chinese Physics Letters 32 (4), 043301

380. Santagata, A., Guarnaccio, A., Pietrangeli, D., (...), Mollica, D., Pari-si, G.P. Production of silver-silica core-shell nanocomposites usingultra-short pulsed laser ablation in nanoporous aqueous silica co-lloidal solutions, 2015 Journal of Physics D: Applied Physics 48(20), 205304

379. Deng, Y., Liu, G., Zhang, L., Ming, H. Far- and near-�eld opticalproperties of Al nanorod by discrete dipole approximation, 2015Journal of Modern Optics 62 (15), pp. 1199-1203

378. Liu, C., Lv, J., Wang, F., (...), Liu, Q., Chu, P.K. Analysis of Locali-zed Surface Plasmon Resonance in Ag/ITO/CdS/SiO2 MultilayeredNanostructured Composite, 2015 Nano10 (8), 1550117

377. Amendola, V. Surface plasmon resonance of silver and gold nano-particles in the proximity of graphene studied using the discretedipole approximation method, 2016 Physical Chemistry ChemicalPhysics 18 (3), pp. 2230-2241

376. Kusada, K. and Kitagawa, H. A Route for Phase Control in MetalNanoparticles: A Potential Strategy to Create Advanced Materials,Adv. Mater., 28: 1129?1142 (2016).

375. DellAglio, M.; Mangini, V.; Valenza, G.; et al. Silver and gold nano-particles produced by pulsed laser ablation in liquid to investigatetheir interaction with Ubiquitin, APPLIED SURFACE SCIENCE 374 Pa-ges: 297-304 2016

374. Liu, C; Lv, JW; Liu, ZT; Zheng, SJ; Liu, Q; Sun, T; Mu, HW; Chu, PKTheoretical Assessment of Localized Surface Plasmon ResonanceProperties of Au-Interlayer-Ag Multilayered Nanoshells, PLASMO-NICS, 11 (6):1589-1595; 10.1007/s11468-016-0214-5 DEC 2016TIPO B (3):

373. Ortiz, G., Inchaussandague, M., Skigin, D., Depine, R., Mochan, W.L.E�ective non-retarded method as a tool for the design of tunablenanoparticle composite absorbers, Journal of Optics, Volume 16,Issue 10, 1 October 2014, Article number 105012

372. Rodriguez-Gattorno, G.; Aleman-Vazquez, L. O.; Angeles-Franco,X.; Cano-Dominguez, J. L; Villagomez-Ibarra, R. Cyclohexane RingOpening on Alumina-Supported Rh and Ir Nanoparticles ,Energy& Fuels 21, 1122 (2007)


Artıculo (citas 36):Reconstruction of quasi-1D In/Si(111) systems: Charge and spindensity waves versus bonding, X. Lopez-Lozano, A. Krivosheeva,A. Stekolnikov, L. Meza-Montes, Cecilia Noguez, J. Furtmueller,and F. Bechstedt, Phys Rev B 73, 035430 (2006)

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370. Fleischer K, Chandola S, Esser N, McGilp JF; Optical properties ofindium nanowires - an adsorption study, Phys Status Solidi (b) 242,2655 (2005)

369. Crain, J.N., Himpsel, F.J., Low-dimensional electronic states at sili-con surfaces, Applied Physics A 82, 431 (2006)

368. A. A. Saranin, A. V. Zotov, M. Kishida, Y. Murata, S. Honda, M.Katayama, K. Oura, D. V. Gruznev, A. Visikovskiy, H. Tochihara ,Reversible phase transitions in the pseudomorphic 7 × 3-hex inlayer on Si(111), Phys. Rev. B 74, 035436 (2006)

367. B S. Mendoza, F. Nastos, N. Arzate, J. E. Sipe, Layer-by-layer analy-sis of the linear optical response of clean and hydrogenated Si(100)surfaces, Phys. Rev. B 74, 075318 (2006)

366. Yeom, HW, Comment on “So� phonon, dynamical �uctuations, anda reversible phase transition: Indium chains on silicon”, Phys RevLett 97, 189701 (2006)

365. M. Hashimoto, Y. Fukaya, A. Kawasuso, A. Ichimiya, Surface struc-ture of In/Si(1 1 1) studied by re�ection high-energy positron dif-fraction, Surface Science 601, 5192 (2007)

364. J-H Cho, J-Y Lee, First-principles calculation of the atomic structureof one-dimensional indium chains on Si(111): Convergence to ametastable structure, Phys. Rev. B 76, 033405 (2007)

363. D. V. Gruznev, D. A. Olyanich, D. N. Chubenko, A. V. Zotov, A. A.Saranin, 4× 1 to 7× 3 transition in the In/GexSi1−x(111) systeminduced by varying the substrate lattice constant, Phys. Rev. B 76,073307 (2007)

362. Y B Losovyj, M Klinke, E Cai, I Rodriguez, J Zhang, L. Makinistian,A. G. Petukhov, E. A. Albanesi, P. Galiy, Y Fiyala, J Liu, P. A. Dowben,The electronic structure of surface chains in the layered semicon-ductor In4Se3(100), Appl. Phys. Lett. 92, 122107 (2008)

361. Wippermann S, Koch N, Schmidt WG; Adatom-induced conductancemodi�cation of in nanowires: Potential-well scattering and struc-tural e�ects, Phys Rev Lett 100, 106802 (2008)

360. C Liu, T Inaoka, S Yaginuma, T Nakayama, M Aono, T Nagao, Di-sappearance of the quasi-one-dimensional plasmon at the metal-insulator phase transition of indium atomic wires, Phys Rev B 77,205415 (2008)

359. Y. Fukaya, M. Hashimoto, A. Kawasuso, A. Ichimiya, Surface struc-ture of Si(111)-(8×2)-In determined by re�ection high-energy po-sitron di�raction, Surface Science 602, 2448 (2008)

358. Hashimoto, M., Fukaya, Y., Kawasuso, A., Ichimiya, A. Quasi-one-dimensional In atomic chains on Si(1 1 1) at low temperature stu-died by re�ection high-energy positron di�raction and scanningtunneling microscopy, Applied Surface Science 254, 7733 (2008)

357. Wippermann S, Schmidt WG; Optical anisotropy of the In/Si(1 1 1)(4x 1)/(8 x 2) nanowire array, Surface Science 603, 247 (2008)

356. Kawasuso, A; Fukaya, Y; Hashimoto, M; Ichimiya, A; Narita, H;Matsuda, I, Atomic Scale Study of Surface Structures and PhaseTransitions with Re�ection High-Energy Positron Di�raction, Posi-tron and Positronium Chemistry 607, 94 (2009)

355. Zhang, H., Li, Y., Li, B., Fang, X., Ji, H., Wang, B., Zeng, C., Hou, J.G.,Templated growth of quasi-one dimensional molecular structureson Si(1 1 1)-(4 x 1)-In surface, Surface Science 603, L70 (2009)

354. Snijders, P.C., Weitering, H.H., Colloquium: Electronic instabilities inself-assembled atom wires, Reviews of Modern Physics 82, 307(2010)

353. Wippermann, S; Koch, N; Blankenburg, S; Gerstmann, U; Sanna, S;Rauls, E; Hermann, A; Schmidt, WG Understanding Electron Trans-port in Atomic Nanowires from Large-Scale Numerical Calculations,HIGH PERFORMANCE COMPUTING ON VECTOR SYSTEMS 2009 :233-242 2010

352. Speiser, E; Chandola, S; Hinrichs, K; Gensch, M; Cobet, C; Wipper-mann, S; Schmidt, WG; Bechstedt, F; Richter, W; Fleischer, K; McGilp,JF; Esser, N Metal-insulator transition in Si(111)-(4 x 1)/(8 x 2)-Instudied by optical spectroscopy, HYSICA STATUS SOLIDI B-BASICSOLID STATE PHYSICS 247 (8): 2033-2039 AUG 2010


351. Wippermann, S; Schmidt, WG Entropy Explains Metal-InsulatorTransition of the Si(111)-In Nanowire Array, PHYSICAL REVIEW LET-TERS 105 (12): Art. No. 126102 SEP 17 2010

350. Goryl, G; Toton, D; Tomaszewska, N; Prauzner-Bechcicki, JS; Wal-czak, L; Tejeda, A; Taleb-Ibrahimi, A; Kantorovich, L; Michel, EG;Kolodziej, JJ Structure of the indium-rich InSb(001) surface, PHYSI-CAL REVIEW B 82 (16): Art. No. 165311 OCT 7 2010

349. Fukaya, Y., Hashimoto, M., Kawasuso, A., Ichimiya, A. Structureand phase transition of low-dimensional metals on Si(111) surfa-ces studied by re�ection high-energy positron di�raction, (2010)Journal of Physics: Conference Series, 225, art. no. 012008

348. Schmidt, WG; Babilon, M; Thierfelder, C; Sanna, S; Wippermann,S In�uence of Na adsorption on the quantum conductanceand metal-insulator transition of the In-Si(111)(4x1)-(8x2) nanowirearray, PHYSICAL REVIEW B 84 (11): 10.1103/PhysRevB.84.115416 SEP14 2011

347. Schmidt, W.G., Wippermann, S., Sanna, S., Babilon, M., Vollmers,N.J., Gerstmann, U. In-Si(111)(4x1)/(8x2) nanowires: Electron trans-port, entropy, and metal-insulator transition, Physica Status Solidi(B) Basic Research 249 (2) , pp. 343-359 2012

346. Kim, H.-J., Cho, J.-H. Driving force of phase transition in indiumnanowires on Si(111), 2013, Physical Review Letters 110 (11), art. no.116801

345. Schmidt, W.G., Rauls, E., Gerstmann, U., Sanna, S., Landmann,M., Rohrmuller, M., Riefer, A., Wippermann, S. Entropy andmetal-insulator transition in atomic-scale wires: The case of In-Si(111)(4x1)/(8x2), 2012, High Performance Computing in Scienceand Engineering 2011 - Transactions of the High Performance Com-puting Center, Stuttgart, HLRS 2011 , pp. 131-139

344. Schmidt, W.G., Wippermann, S., Rauls, E., Gerstmann, U., Sanna, S.,Thierfelder, C., Landmann, M., Dos Santos, L.S. Si(111)-In nanowi-re optical response from large-scale ab initio calculations, 2011,High Performance Computing in Science and Engineering 2010 -Transactions of the High Performance Computing Center, Stuttgart,HLRS 2010 , pp. 149-158

343. Wippermann, S. , Babilon, M., Thierfelder, C., Sanna, S., Sch-midt, W.G. In�uence of adatoms on the quantum conductance andmetal-insulator transition of atomic-scale nanowires, High Perfor-mance Computing on Vector Systems 2011 2012, Pages 159-170.2011 14th Tera�op Workshop; Stuttgart; Germany; 5 December 2011through 6 December 2011; Code 103351

342. Gerstmann, U., Vollmers, N.J., Lucke, A., Babilon, M., Schmidt, W.G.Rashba splitting and relativistic energy shi�s in In/Si(111) nanowi-res, Physical Review B 89, Issue 16, 30 April 2014, Article number165431

341. Jeckelmann, E; Sanna, S; Schmidt, WG; Speiser, E; Esser, N Grandcanonical Peierls transition in In/Si(111), PHYSICAL REVIEW B, 93(24):10.1103/PhysRevB.93.241407 JUN 21 2016

340. Speiser, E; Esser, N; Wippermann, S; Schmidt, WG Surface vibratio-nal Raman modes of In: Si(111)(4 x 1) and (8 x 2) nanowires, PHY-SICAL REVIEW B, 94 (7):10.1103/PhysRevB.94.075417 AUG 12 2016TIPO B (5):

339. A. A. Stekolnikov, K. Seino, F. Bechstedt, S. Wippermann, W. G. Sch-midt, A. Calzolari, M. Buongiorno Nardelli, Hexagon versus TrimerFormation in In Nanowires on Si(111): Energetics and Quantum Con-ductance, Phys. Rev. Lett. 98, 026105 (2007)

338. S. Wippermann, W.G. Schmidt, A. Calzolari, M. Buongiorno Nardelli,A.A. Stekolnikov, K. Seino, F. Bechstedt, Quantum conductance ofIn nanowires on Si(111) from �rst principles calculations, SurfaceScience 601 4045 (2007)

337. A. A. Stekolnikov, J. Furthmuller, and F. Bechstedt, Pt-induced na-nowires on Ge(001): Ab initio study, Phys. Rev. B 78, 155434 (2008)

336. Chandola S, Hinrichs K, Gensch, M; Esser, N; Wippermann, S; Sch-midt, WG; Bechstedt, F; Fleischer, K; McGilp, JF , Structure of Si(111)-In Nanowires Determined from the Midinfrared Optical Response,Phys Rev Lett 102, 226805 (2009)

335. Sauer, S; Fuchs, F; Bechstedt, F; Blumenstein, C; Schafer, JFirst-principles studies of Au-induced nanowires on Ge(001), PhysRev B 81 (7): Art. No. 075412 FEB 2010

Artıculo (citas 33):Optical circular dichroism of single-wall carbon nanotubes, A.Sanchez-Castillo, C. E. Roman Velazquez, and Cecilia Noguez,Phys Rev B 73, 045401 (2006)

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334. Dukovic, G.; Balaz, M.; Doak, P.; Berova, N. D.; Zheng, M.; Mclean,R. S.; Brus, L. E.; Racemic Single-Walled Carbon Nanotubes ExhibitCircular Dichroism When Wrapped with DNA, J. Am. Chem. Soc.128, 9004 (2006)

333. Florian Dufey, Optical activity in the Drude helix model, ChemicalPhysics, 330, 326 (2006)

332. Qi, H; Hegmann, T, Formation of periodic stripe patterns in nematicliquid crystals doped with functionalized gold nanoparticles, J ofMaterials Chemistry 16, 4197 (2006)

331. A. Eisfeld, R. Kniprath, and J. S. Briggs, Theory of the absorptionand circular dichroism spectra of helical molecular aggregates, J.Chem. Phys. 126, 104904 (2007)

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305. Magg, M; Kadria-Vili, Y; Oulevey, P; Weisman, RB; Buergi, T Reso-nance Raman Optical Activity Spectra of Single-Walled Carbon Na-notube Enantiomers, JOURNAL OF PHYSICAL CHEMISTRY LETTERS,7 (2):221-225; 10.1021/acs.jpclett.5b02612 JAN 21 2016

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303. Cecconello, A; Kahn, JS; Lu, CH; Khorashad, LK; Govorov, AO; Will-ner, I DNA Sca�olds for the Dictated Assembly of Le�-/Right-Handed Plasmonic Au NP Helices with Programmed Chiro-OpticalProperties, JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 138(31):9895-9901; 10.1021/jacs.6b04096 AUG 10 2016

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300. T. Emig, N. Graham, R. L. Ja�e, and M. Kardar Orientation depen-dence of Casimir forces Phys. Rev. A 79, 054901 (2009)

299. Esquivel-Sirvent, R; Escobar, JV Casimir force between liquid me-tals, EPL, 107 (4):10.1209/0295-5075/107/40004 AUG 2014TIPO B (2):

298. C E Roman-Velazquez, B. E Sernelius, Casimir forces between nano-structured particles, arXiv:0806.2067v1 (2008)

297. Carlos E Roman-Velazquez and Bo E Sernelius, Non-additivebehavior of van der Walls dispersion forces due to material andsurface geometry e�ects, arXiv:0805.1547v1 (2008)

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296. N. I. Cade, T. Ritman-Meer, and D. Richards, Plasmonic engineeringof silver �lms for enhanced �uorescence and Raman scatteringProgress in Biomedical Optics and Imaging - Proceedings of SPIE7192, art. no. 71920J (2009)


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291. Trinh LTT, Kjoniksen AL, Zhu KZ, Knudsen KD, Volden S, Glomm WR,Nystrom B Slow salt-induced aggregation of citrate-covered silverparticles in aqueous solutions of cellulose derivatives, Colloid andPolymer Science 298, 1391 (2009)

290. F W. Campbell, S R. Belding, R Baron, L Xiao, R G. Compton TheHydrogen Evolution Reaction at a Silver Nanoparticle Array and aSilver Macroelectrode Compared: Changed Electrode Kinetics bet-ween the Macro- and Nanoscales, J. Phys. Chem. C 113, 14852(2009)


289. Trinh, L.T.T., Volden, S., Kjoniksen, A.-L., Zhu, K., Knudsen, K.D.,Glomm, W.R., Nystrom, B, Temperature-induced adsorption andoptical properties of an amphiphilic diblock copolymer adsorbedonto �at and curved silver surfaces, Journal of Colloid and Inter-face Science 342, 142 (2010)

288. Torres Heredia, Victor Elias Silver nanostructures: chemical synt-hesis of colloids and composites nanoparticles, plamon resonanceproperties and silver nanoparticles monolayer �lms prepared byspin-coating, Director/a: Calderon Moreno, Jose Maria, UniversitatPolitecnica de Catalunya. Departament de Fisica Aplicada Fechade defensa: 08-11-2011Deposito Legal: B. 42939-2011

287. Rodrıguez-Oliveros, R., Sanchez-Gil, J.A. Localized surface-plasmon resonances on single and coupled nanoparticles throughsurface integral equations for �exible surfaces, 2011 Optics Ex-press 19 (13), pp. 12208-12219


285. Pullini, D., Carotenuto, G., Palomba, M., Mosca, A., Horsewell,A., Nicolais, L. In situ synthesis of high-density contact-free Ag-nanoparticles for plasmon resonance polystyrene nanocomposi-tes, Journal of Materials Science 46 (24), pp. 7905-7911 2011

284. Yuan, L; Zhu, J; Ren, YJ; Bai, SW Sectional area-dependent plasmo-nic shi�ing in the truncated process of silver nanoparticles: fromcube to octahedron, JOURNAL OF NANOPARTICLE RESEARCH, 13(12):6305-6312; 10.1007/s11051-011-0600-z DEC 2011

283. Kruszewski, S., Cyrankiewicz, M. Aggregated silver sols as SERSsubstrates, (2012) Acta Physica Polonica A, 121 (1 A) pp. A68-A74.

282. Logsdail, A.J., Johnston, R.L. Predicting the optical properties ofcore-shell and Janus segregated Au-M nanoparticles (M = Ag, Pd),2012, Journal of Physical Chemistry C 116 (44) , pp. 23616-23628

281. R. Singhal, J.C. Pivin, R. Chandra, D.K. Avasthi, Ion irradiation stu-dies of silver/amorphous carbon nanocomposite thin �lm, Surfa-ce and Coatings Technology, Available online 8 June 2012, ISSN0257-8972, 10.1016/j.surfcoat.2012.05.131.


279. Sukmanowski, J; Battie, Y; Royer, FX; Naciri, AE Determina-tion of optical properties of percolated nanostructures usingan optical resonator system, JOURNAL OF APPLIED PHYSICS, 112(10):10.1063/1.4768202 NOV 15 2012


277. El-Dessouky, R; Georges, M; Azzazy, HME Silver Nanostructures:Properties, Synthesis, and Biosensor Applications, Editor(s): HepelM; Zhong CJ, en FUNCTIONAL NANOPARTICLES FOR BIOANALYSIS,NANOMEDICINE, AND BIOELECTRONIC DEVICES, VOL 1, 1112 359-404; 2012, ACS Symposium Series


275. Cyrankiewicz, M., Wybranowski, T., Kruszewski, S. Silver nanopar-ticles as enhancing substrates for raman and �uorescence spec-troscopy, (2014) Acta Physica Polonica A, 125 (4 A) pp. A11-A15.

274. El-Dessouky, R., Georges, M., Azzazy, H.M.E. Silver nanostructures:Properties, synthesis, and biosensor applications, ACS SymposiumSeries Volume 1112, 26 November 2012, Pages 359-404

273. Yakovlev, A.V. , Golubeva, O.Y. Synthesis optimisation of lysozymemonolayer-coated silver nanoparticles in aqueous solution, Jour-nal of Nanomaterials Volume 2014, 2014, Article number 460605

272. Roy, K., Sarkar, C.K., Ghosh, C.K. Single-step novel biosynthesis ofsilver nanoparticles using Cucumis sativus fruit extract and studyof its photcatalytic and antibacterial activity , Digest Journal of Na-nomaterials and Biostructures Volume 10, Issue 1, January-March2015, Pages 107-115


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Artıculo (citas 31):Large optical birefringence by anisotropic silver nanocomposites,J. A. Reyes-Esqueda, C. Torres-Torres, J. C. Cheang-Wong, A.Crespo-Sosa, L. Rodriıguez-Fernaandez, Cecilia Noguez, A. Oliver,Optics Express 16, 710–717 (2008)

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267. Murai, S., Hattori, R., Fujita, K., Tanaka, K, Optical birefringence intellurite glass containing silver nanoparticles precipitated throughthermal process, Applied Physics Express 2, 102001 (2009)

266. Jen, Y.-J., Yu, C.-W., Lin, C.-T., Backward wave phenomenon for lightpropagating through a silver nanorod array, Proceedings of SPIE- The International Society for Optical Engineering 7394, art. no.73942F (2009)

265. Khlebtsov, NG Anisotropic properties of plasmonic nanoparticles:depolarized light scattering, dichroism, and birefringence, JOUR-NAL OF NANOPHOTONICS 4: Art. No. 041587 MAR 4 2010

264. Stepanov, AL SYNTHESIS OF SILVER NANOPARTICLES IN DIELECTRICMATRIX BY ION IMPLANTATION: A REVIEW, REVIEWS ON ADVANCEDMATERIALS SCIENCE 26 (1-2): 1-29 DEC 2010

263. Amekura, H; Ishikawa, N; Okubo, N; Ridgway, MC; Giulian, R;Mitsuishi, K; Nakayama, Y; Buchal, C; Mantl, S; Kishimoto, N Znnanoparticles irradiated with swi� heavy ions at low �uences:Optically-detected shape elongation induced by nonoverlappingion tracks, PHYSICAL REVIEW B 83 (20): Art. No. 205401 MAY 3 2011

262. Murai, S., Hattori, R., Matoba, T., Fujita, K., Tanaka, K. Enhance-ment of optical birefringence in tellurite glasses containing silvernanoparticles induced via thermal poling, 2011 Journal of Non-Crystalline Solids 357 (11-13), pp. 2259-2263

261. Anghinol�, L; Moroni, R; Mattera, L; Canepa, M; Bisio, F Flexi-ble Tuning of Shape and Arrangement of Au Nanoparticles in 2-Dimensional Self-Organized Arrays: Morphology and PlasmonicResponse, JOURNAL OF PHYSICAL CHEMISTRY C 115 (29): 14036-14043 2011

260. H. Amekura, N. Ishikawa, N. Okubo, Y. Nakayama, K. MitsuishiAsynchronous melting of embedded metal nanoparticles and silica


matrix for shape elongation induced by swi� heavy ion irradia-tion, Nuclear Instruments and Methods in Physics Research SectionB: Beam Interactions with Materials and Atoms, Volume 269, Issue23, 1 December 2011, Pages 2730-2733

259. Murai, S., Tsujiguchi, T., Fujita, K., Tanaka, K. Enhanced form bire-fringence of metal nanoparticles with anisotropic shell mediatedby localized surface plasmon resonance, 2011 Optics Express 19(23), pp. 23581-23589

258. Rowan, CK; Paci, I Nanoparticle morphology and aspect ratio ef-fects in Ag/PVDF nanocomposites, THEORETICAL CHEMISTRY AC-COUNTS, 131 (1):10.1007/s00214-011-1078-6 JAN 2012

257. Amekura, H; Sele, ML; Ishikawa, N; Okubo, N Thermal stabi-lity of embedded metal nanoparticles elongated by swi� heavyion irradiation: Zn nanoparticles in a molten state but preser-ving elongated shapes, NANOTECHNOLOGY, 23 (9):10.1088/0957-4484/23/9/095704 MAR 9 2012

256. Dintinger, J., Tang, B.-J., Zeng, X., Kienzler, T., Mehl, G.H., Ungar,G., Rockstuhl, C., Scharf, T. Optical properties of mesogen-coatedgold nanoparticles, 2012 Proceedings of SPIE - The InternationalSociety for Optical Engineering 8271 , art. no. 827106

255. FRANCISCO JAVIER GUZMAN Y NIEVES EDDY HIRAN GARCIA VAZ-QUEZ, DESARROLLO EXPERIMENTAL DE UNA COMPUERTA OPTICAINVERSORA BASADA EN NANOPARTICULAS DE ORO, TESIS PARA OB-TENER EL TITULO DE: INGENIERO EN COMUNICACIONES Y ELECTRO-NICA, ESCUELA SUPERIOR DE INGENIERIA MECANICA Y ELECTRICAIPN, Junio 2012.

254. Khlebtsov, B.N., Khanadeev, V.A., Khlebtsov, N.G Extinction andextra-high depolarized light scattering spectra of gold nanorodswith improved purity and dimension tunability: Direct and inverseproblems, Physical Chemistry Chemical Physics 16 (12), 28 March2014, Pages 5710-5722

253. Stepanov, A.L. Ion-synthesis of silver nanoparticles and their opti-cal properties, en Silver Nanoparticles: Properties, Characterizationand Applications, January 2011, Pages 169-219

252. Zhang, W., Ye, W., Wang, C., Li, W., Yue, Z., Liu, G. Silver nanopar-ticle arrays enhanced spectral surface plasmon resonance opticalsensor, Micro and Nano Letters Volume 9, Issue 9, 1 September2014, Pages 585-587

251. Amekura, H., Mohapatra, S., Singh, U.B., Khan, S.A., Kulriya, P.K.,Ishikawa, N., Okubo, N., Avasthi, D.K. Shape elongation of Zn na-noparticles in silica irradiated with swi� heavy ions of di�erentspecies and energies: Scaling law and some insights on the elon-gation mechanism, Nanotechnology Volume 25, Issue 43, 31 Oc-tober 2014, Article number 435301

250. Amekura, H; Okubo, N; Ishikawa, N Optical birefringenceof Zn nanoparticles embedded in silica induced by swi�heavy-ion irradiation, OPTICS EXPRESS, 22 (24):29888-29898;10.1364/OE.22.029888 DEC 1 2014

249. Moiseev, S.G., Ostatochnikov, V.A., Sementsov, D.I. In�uence of sizee�ects on the optical characteristics of a one-dimensional photo-nic crystal with a nanocomposite defect, JETP Letters Volume 100,Issue 6, 4 December 2014, Pages 371-375

248. Amekura, H; Kono, K; Okubo, N; Ishikawa, N Shape elongation ofembedded Zn nanoparticles induced by swi� heavy ion irradia-tion: A SAXS study, PHYSICA STATUS SOLIDI B-BASIC SOLID STATEPHYSICS, 252 (1):165-169; 10.1002/pssb.201400138 JAN 2015

247. Nekrasova, TN; Andreeva, LN; Lezov, AA; Bezrukova, MA; Na-zarova, OV; Zolotova, YI; Tsvetkov, NV; Panarin, EF Opti-cal and hydrodynamic properties of solutions of copoly-mers of N,N-dimethylaminoethyl methacrylate and 2-deoxy-2-methacrylamido-D-glucose that contain silver particles, POLY-MER SCIENCE SERIES A, 57 (2):103-114; 10.1134/S0965545X15020121MAR 2015

246. Amekura, H Shape Elongation of Embedded Metal NanoparticlesInduced by Irradiation with Swi� Heavy Ions / Cluster Ions, 2016IEEE NANOTECHNOLOGY MATERIALS AND DEVICES CONFERENCE(NMDC), 2016.TIPO B (9):

245. Torres-Torres, C; Reyes-Esqueda, JA; Cheang-Wong, JC; Crespo-Sosa, A; Rodriguez-Fernandez, L; Oliver, A, Optical third-order non-linearity by nanosecond and picosecond pulses in Cu nanoparti-cles in ion-implanted silica, Journal of Applied Physics 104 014306(2008)

244. Rangel-Rojo, R., McCarthy, J., Bookey, H.T., Kar, A.K., Rodriguez-Fernandez, L., Cheang-Wong, J.C., Crespo-Sosa, A., Lopez-Suarez,A., Oliver, A., Rodriguez-Iglesias, V., Silva-Pereyra, H.G. Anisotropyin the nonlinear absorption of elongated silver nanoparticles in si-lica, probed by femtosecond pulses, Optics Communications 282,1909 (2009)



241. Silva-Pereyra, HG; Arenas-Alatorre, J; Rodriguez-Fernandez, L;Crespo-Sosa, A; Cheang-Wong, JC; Reyes-Esqueda, JA; Oliver, AHigh stability of the crystalline con�guration of Au nanoparticlesembedded in silica under ion and electron irradiation, JOURNALOF NANOPARTICLE RESEARCH 12 (5): 1787-1795 JUN 2010


239. Torres-Torres, C; Tamayo-Rivera, L; Rangel-Rojo, R; Reyes-Esqueda,JA; Cheang-Wong, JC; Rodriguez-Fernandez, L; Crespo-Sosa, A; Oli-ver, A Femto-, pico- and nano-second refractive nonlinearities ex-hibited by Au nanoparticles, 22ND CONGRESS OF THE INTERNA-TIONAL COMMISSION FOR OPTICS: LIGHT FOR THE DEVELOPMENTOF THE WORLD, 8011 10.1117/12.903259 2011

238. Fernandez-Hernandez, RC; Gleason-Villagran, R; Torres-Torres, C;Rodriguez-Fernandez, L; Crespo-Sosa, A; Cheang-Wong, JC; Lopez-Suarez, A; Rangel-Rojo, R; Oliver, A; Reyes-Esqueda, JA On thephysical contributions to the third-order nonlinear optical res-ponse in plasmonic nanocomposites, JOURNAL OF OPTICS, 14(12):10.1088/2040-8978/14/12/125203 DEC 2012

237. Can-Uc, B; Rangel-Rojo, R; Rodriguez-Fernandez, L; Oliver,A Polarization selectable nonlinearities in elongated silvernanoparticles embedded in silica, OPTICAL MATERIALS EXPRESS,3 (12):2012-2021; 2013

Artıculo (citas 10):Atomic structure of small and intermediate size silver nanoclus-ters, A. M. Angulo, Cecilia Noguez, J Phys Chem A 112, 5834 –5838 (2008)

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236. K Bao, S Goedecker, K Koga, F Lancon, A Neelov Structure of largegold clusters obtained by global optimization using the minimahopping method, Phys. Rev. B 79 041405 (2009)

235. N Cathcart, V Kitaev Silver Nanoclusters: Single-Stage ScaleableSynthesis of Monodisperse Species and Their Chirooptical Proper-ties, J. Phys. Chem. C 114 (38): 16010-16017 SEP 30 2010

234. Huang, WQ; Lai, XJ; Xu, RC Structural optimization of silver clustersfrom Ag-141 to Ag-310 using a Modi�ed Dynamic Lattice Searchingmethod with Constructed core, Chem. Phys. Lett. 507 (1-3): 199-202APR 29 2011

233. Wang, BY; Liu, MX; Wang, YT; Chen, XS Structures and Energeticsof Silver and Gold Nanoparticles, J. Phys. Chem. C 115 (23): 11374-11381 JUN 16 2011

232. Grabowska, E; Zaleska, A; Sorgues, S; Kunst, M; Etcheberry, A;Colbeau-Justin, C; Remita, H —textitModi�cation of Titanium(IV)Dioxide with Small Silver Nanoparticles: Application in Photoca-talysis, J. Phys. Chem. C 117 (4):1955-1962 2013

231. Patala, S; Marks, LD; de la Cruz, MO Thermodynamic Analy-sis of Multiply Twinned Particles: Surface Stress E�ects, JOUR-NAL OF PHYSICAL CHEMISTRY LETTERS, 4 (18):3089-3094;10.1021/jz401496d SEP 19 2013

230. Ramaraj, R. , Maduraiveeran, G. Metal nanoparticles embeddedpolymer matrix modi�ed electrodes for direct electrocatalysis andelectrochemical sensor, inNanostructured Materials for Electroche-mical Biosensors, 2009, Pages 65-96, Nova Science Publishers,Inc. ISBN: 978-160741706-4

229. Lan, Y.-K., Su, C.-H., Sun, W.-H., Su, A.-C. Nucleation of decahedralAg nanocrystals, RSC Advances Volume 4, Issue 27, 2014, Pages13768-13773

228. Ahmadi, S., Zhang, X., Gong, Y., Chia, C.H., Sun, C.Q. Skin-resolvedlocal bond contraction, core electron entrapment, and valencecharge polarization of Ag and Cu nanoclusters, (2014) PhysicalChemistry Chemical Physics, 16 (19) pp. 8940-8948

227. Chaban, V Annealing relaxation of ultrasmall gold na-nostructures, CHEMICAL PHYSICS LETTERS, 618 46-50;10.1016/j.cplett.2014.10.070 JAN 2 2015

Artıculo (citas 31):Intrinsic Chirality in Bare Gold Nanoclusters: The Au−34 case, I. E.Santizo,F Hidalgo-Moreno, L. A. Perez, Cecilia Noguez, and I. L.Garzon, J Phys Chem C 112, 17533 – 17539 (2008)

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226. R Pal, L-M Wang, W Huang, L-S Wang X C Zeng, Structural Evolutionof Doped Gold Clusters: MAux- (M = Si, Ge, Sn; x = 5-8), J. Am.Chem. Soc. 131, 3396 (2009)

225. M R. Provorse, C M. Aikens, Origin of Intense Chiroptical E�ects inUndecagold Subnanometer Particles, J. Am. Chem. Soc. 132, 1302(2010)

224. Shao N, Huang W, Gao Y, et al. Probing the Structural Evolution ofMedium-Sized Gold Clusters: Au-n(-) (n=27-35), J. Am. Chem. Soc.132, 6596 (2010)

223. Yao, H; Saeki, M; Kimura, K, Induced Optical Activity in Boronic-Acid-Protected Silver Nanoclusters by Complexation with ChiralFructose, J. Phys. Chem. C 114 (38): 15909-15915 SEP 30 2010

222. Govorov, AO Plasmon-Induced Circular Dichroism of a Chiral Mo-lecule in the Vicinity of Metal Nanocrystals. Application to VariousGeometries, J. Phys. Chem. C 115 (16): 7914-7923 APR 28 2011

221. Gerard, VA; Gunko, YK; Defrancq, E; Govorov, AO Plasmon-inducedCD response of oligonucleotide-conjugated metal nanoparticles,Chem. Comm. 47 (26): 7383-7385 2011



218. Beltran, MR; Raspopov, RS; Gonzalez, G Structural evolution studyof 1-2 nm gold clusters, EUROPEAN PHYSICAL JOURNAL D, 65(3):411-420; 10.1140/epjd/e2011-20273-2 DEC 2011

217. Rodriguez, J.I., Autschbach, J., Castillo-Alvarado, F.L., Baltazar-Mendez, M.I. Size evolution study of molecular and atom-in-clusterpolarizabilities of medium-size gold clusters, J. Chemical Physics135 (3) , art. no. 034109 2011

216. Elgavi, H., Krekeler, C., Berger, R., Avnir, D. Chirality in copper na-noalloy clusters, J. Phys. Chem. C 116 (1) , pp. 330-335 2012

215. Xu, K.-M., Huang, T., Wen, H., Liu, Y.-R., Gai, Y.-B., Zhang, W.-J.,Huang, W. A density functional study of phosphorus-doped goldclusters: Au nP- (n = 1-8), 2013, RSC Advances 3 (46) , pp. 24492-24502

214. Roy, S., Bhattacharya, K., Mandal, C., Dasgupta, A.K. Cellular res-ponse to chirality and ampli�ed chirality, 2013, Journal of Mate-rials Chemistry B 1 (48) , pp. 6634-6643

213. Wan, XK; Yuan, SF; Lin, ZW; Wang, QM A Chiral Gold Nano-cluster Au-20 Protected by Tetradentate Phosphine Ligands, AN-GEWANDTE CHEMIE-INTERNATIONAL EDITION, 53 (11):2923-2926;10.1002/anie.201308599 MAR 10 2014


211. Li, Wei-Li and Zhao, Ya-Fan and Hu, Han-Shi and Li, Jun and Wang,Lai-Sheng [B30]?: A Quasiplanar Chiral Boron Cluster, AngewandteChemie 53, 5540–5545 (2014),8

210. Schaefer, B., Pal, R., Khetrapal, N.S., Amsler, M., Sadeghi, A., Blum,V., Zeng, X.C., Goedecker, S., Wang, L.-S. Isomerism and structu-ral �uxionality in the Au26 and Au 26 - nanoclusters, ACS NanoVolume 8, Issue 7, 22 July 2014, Pages 7413-7422


208. Sharma, A., Mori, T., Lee, H.-C., Worden, M., Bidwell, E., Hegmann,T. Detecting, visualizing, and measuring gold nanoparticle chiralityusing helical pitch measurements in nematic liquid crystal phases,ACS Nano Volume 8, Issue 12, 23 December 2014, Pages 11966-11976

207. Zhan, P., Wang, Z.-G., Li, N., Ding, B. Engineering gold nanopar-ticles with DNA ligands for selective catalytic oxidation of chiralsubstrates, 2015 ACS Catalysis 5 (3), pp. 1489-1498

206. Zhang, M., Zhang, J., Gu, T., (...), Luo, Y., Cao, W. First-principlesinvestigations of chirality in trimetallic alloy clusters: AlMnAun (n= 1-7), 2015 Journal of Physical Chemistry A 119 (14), pp. 3458-3470

205. Xu, K.-M., Huang, T., Liu, Y.-R., (...), Gai, Y.-B., Huang, W. Probingthe structures and electronic properties of dual-phosphorus-dopedgold cluster anions (AunP2-, n = 1-8): A density functional theoryinvestigation, 2015 Chemical Physics 456, 9304, pp. 13-21



203. Joshi, K; Krishnamurty, S Behaviour of ’free-standing’hollowAu nanocages at �nite temperatures: a BOMD study,MOLECULAR PHYSICS, 113 (19-20):2980-2991; SI10.1080/00268976.2015.1062151 OCT 18 2015

202. Manzoor, D., Krishnamurty, S., Pal, S. Endohedrally doped goldnanocages: E�cient catalysts for O2 activation and CO oxidation,2016 Physical Chemistry Chemical Physics 18 (10), pp. 7068-7074

201. Kumar, J., Thomas, K.G., Liz-Marzan, L.M. Nanoscale chirality inmetal and semiconductor nanoparticles, 2016 Chemical Commu-nications 52 (85), pp. 12555-12569


199. Pande, S; Huang, W; Shao, N; Wang, LM; Khetrapal, N; Mei, WN;Jian, T; Wang, L.-S., Zeng, X.C. Structural Evolution of Core-ShellGold Nanoclusters: Aun- (n = 42-50), 2016 ACS Nano 10 (11), pp.10013-10022TIPO B (3):

198. Sauceda, H.E., Garzon, I.L. Structural determination of metal na-noparticles from their vibrational (phonon) density of states, 2015Journal of Physical Chemistry C 119 (20), pp. 10876-10880

197. Pelayo, J.D.J., Valencia, I., Diaz, G., Lopez-Lozano, X., Garzon, I.L.Enantiospeci�c adsorption of cysteine on a chiral Au34 cluster,2015 European Physical Journal D 69 (12), 277


Artıculo (citas 16):Theoretical Study of Surface Plasmon Resonances in HollowGold-Silver Double-Shell Nanostructures, C.E. Roman-Velzquez,Cecilia Noguez, J.J. Zhang, J Phys Chem A 113 4068 – 4074(2009)

TIPO A (15):195. Bakshi, MS, A Simple Method of Superlattice Formation: Step-by-

Step Evaluation of Crystal Growth of Gold Nanoparticles throughSeed-Growth Method, Langmuir 25, 12697 (2009)

194. Q Zha, R Q Snurr, Self-Di�usion Studies of Binary Mixtures in NaXZeolites Using Pulsed Field Gradient NMR and a Maxwell-StefanModel, J. Phys. Chem. A 113, 3904 (2009)


192. Chen, B; Jiao, XL; Chen, DR Fabrication of hollow cubic Ag micro-boxes with net-like nano�ber structures and their surface plasmonresonance, Crystengcomm 13 (1): 204-211 2011

191. Hooshmand N, Jain PK, El-Sayed MA Plasmonic Spheroidal MetalNanoshells Showing Larger Tunability and Stronger Near FieldsThan Their Spherical Counterparts: An E�ect of Enhanced PlasmonCoupling, J. Phys. Chem. Lett. 2, 374-378 2011

190. Chassagneux, F; Bois, L; Simon, JP; Desroches, C; Brioude, A Elabo-ration and characterization of bimetallic gold-silver nanoparticlessupported on mesostructured silica �lms, J. Material Chem. 21 (32):11947-11955 2011

189. Cao, S., Zhao, Z., Jin, X., Sheng, W., Li, S., Ge, Y., Dong, M., Wu,W., Fang, L. Unique double-shelled hollow silica microspheres:Template-guided self-assembly, tunable pore size, high thermalstability, and their application in removal of neutral red 2011 J.Materials Chemistry 21 (47), pp. 19124-19131

188. Friedberg, R., Manassah, J.T. Tuning to the plasmonic eigenfre-quency and determining its decay rate in a spherical noble metalnanoshell, 2012, Chemical Physics Letters 539-540 , pp. 118-122

187. Qian, XH; Bai, J Theoretical Studies of the Optical Propertiesof Hollow Spherical Metallic Nanoshells, JOURNAL OF COMPU-TATIONAL AND THEORETICAL NANOSCIENCE, 10 (10):2354-2360;10.1166/jctn.2013.3213 OCT 2013

186. Arnold, M., Blaber, M., Ford, M. Local plasmon resonances ofmetal-in-metal core-shells, Optics Express 22 (3), 2014, 3186-3198

185. Barry, M; Ding, B; Jung, Y; Reddy, BVK; Phuoc, TX; Chyu, MK Pulsednanosecond laser ablation of gold in deionized water and aqueouschitosan solution, OPTICS AND LASERS IN ENGINEERING, 55 59-68;10.1016/j.optlaseng.2013.10.019 APR 2014

184. Hong, S., Acapulco, J.A.I., Jang, H.Y., Park, S. Au nanodisk-core mul-tishell nanoparticles: Synthetic method for controlling number ofshells and intershell distance, Chemistry of Materials Volume 26,Issue 12, 24 June 2014, Pages 3618-3623

183. Li, J., Zhou, J., Jiang, T., Wang, B., Gu, M., Petti, L., Mormile, P. Con-trollable synthesis and SERS characteristics of hollow sea-urchingold nanoparticles, Physical Chemistry Chemical Physics Volume16, Issue 46, 14 December 2014, Pages 25601-25608

182. Cha�n, E., OConnor, R.T., Barr, J., Huang, X., Wang, Y. Dependenceof SERS enhancement on the chemical composition and structureof Ag/Au hybrid nanoparticles, 2016 Journal of Chemical Physics145 (5), 054706

181. Xie, L; Yao, HJ; Duan, JL; Chen, YH; Lyu, SB; Maaz, K; Mo, D; Liu, J;Sun, YM; Hou, MD Investigation of optical properties of Cu/Ni multi-layer nanowires embedded in etched ion-track template, APPLIEDSURFACE SCIENCE, 388 155-159; 10.1016/j.apsusc.2016.02.016 ADEC 1 2016TIPO B (1):

180. JZ Zhang Biomedical Applications of Shape-Controlled PlasmonicNanostructures: A Case Study of Hollow Gold Nanospheres forPhotothermal Ablation Therapy of Cancer, J Phys Chem Lett 1,686 (2010)

Artıculo (citas 10):E�cient First-Principles Method for Circular Dichroism of Nanos-tructures, F. Hidalgo, A. Sanchez-Castillo, Cecilia Noguez, PhysRev B 79, 075438 (2009)

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179. M. Savoini, P. Biagioni, G. Lakhwani, S. C. J. Meskers, L. Duo, andM. Finazzi, Near-�eld circular polarization probed by chiral poly-�uorene, Opt. Lett. 34, 3571 (2009)

178. J D Correa , C G Rocha , A Latge and M Pacheco, Probing opticalspectra of carbon nanotubes with external �elds, 2011 J. Phys.:Condens. Matter 23 065301


176. TIANA, G. E. MOLTENI and G. ONIDA. Towards ab initio calculationsof circular dichroism of peptides, Epioptics-11: Proceedings of the49th Course of the International School of Solid State Physics:Erice, Italy, 19-25 July 2010, 2012, p. 107.



174. Huo, HJ; Li, Y; Yuan, Y; Lin, SW; Li, BZ; Wang, ML; Yang, YG Chi-ral Carbonaceous Nanotubes Containing Twisted CarbonaceousNanoribbons, Prepared by the Carbonization of Chiral OrganicSelf-Assemblies, CHEMISTRY-AN ASIAN JOURNAL, 9 (10):2866-2871;10.1002/asia.201402569 OCT 2014

173. Molteni, E., Onida, G., Tiana, G. Conformational Dependence ofthe Circular Dichroism Spectra of Single Amino Acids from Plane-Waves-Based Density Functional Theory Calculations, 2015 Journalof Physical Chemistry B 119 (14), pp. 4803-4811

172. Liu, D., Li, B., Guo, Y., Li, Y., and Yang, Y. Inner Surface Chirality ofSingle-Handed Twisted Carbonaceous Tubular Nanoribbons Chira-lity, 27: 809?815, (2015)

171. Nagy, P.R., Koltai, J., Surjan, P.R., Kurti, J., Szabados, A. ResonanceRaman Optical Activity of Single Walled Chiral Carbon Nanotubes,2016, Journal of Physical Chemistry A, (28), 5527-5538

170. Cecconello, A., Kahn, J.S., Lu, C.-H., (...), Govorov, A.O., Willner, I.DNA Sca�olds for the Dictated Assembly of Le�-/Right-HandedPlasmonic Au NP Helices with Programmed Chiro-OpticalProperties, 2016 Journal of the American Chemical Society 138(31), pp. 9895-9901

Artıculo (citas 10):First-principles calculations of circular dichroism of bare andligand-protected gold nanoparticles, F. Hidalgo, A. Sanchez-Castillo, I.L. Garzon, Cecilia Noguez, Eur Phys J D 52, 179 – 182(2009)

TIPO A (9):169. M R. Provorse, C M. Aikens, Origin of Intense Chiroptical E�ects in

Undecagold Subnanometer Particles, J. Am. Chem. Soc. 132, 1302(2010)

168. Shukla, N., Bartel, M.A., Gellman, A.J. Enantioselective separationon chiral Au nanoparticles, 2010 J. the American Chemical Society132 (25), pp. 8575-8580

167. Gautier, C; Burgi, T, Vibrational Circular Dichroism of AdsorbedMolecules: BINAS on Gold Nanoparticles, J. Phys. Chem. C 114 (38):15897-15902 SEP 30 2010


165. Burgess, RW; Keast, VJ TDDFT Study of the Optical Absorption Spec-tra of Bare and Coated Au(55) and Au(69) Clusters, J. Phys. Chem.C 115 (43): 21016-21021 2011

164. Mansfeld, D., Miersch, L., Ru�er, T., Schaarschmidt, D., Lang, H.,Bohle, T., Tro�, R.W., (...), Mehring, M. From Bi22O26 to chiralligand-protected Bi 38O45-based bismuth oxido clusters, 2011Chemistry - A European Journal 17 (52) , pp. 14805-14810


162. Shukla, N; Ondeck, N; Khosla, N; Klara, S; Petti, A; Gellman, A Po-larimetric Detection of Enantioselective Adsorption by Chiral AuNanoparticles - E�ects of Temperature, Wavelength and Size, NA-NOMATERIALS AND NANOTECHNOLOGY, 5 10.5772/60109 JAN 272015

161. Fernando, A; Dimuthu, KL; Weerawardene, M; Karimova, NV; Ai-kens, CM Quantum Mechanical Studies of Large Metal, Metal Oxi-de, and Metal Chalcogenide Nanoparticles and Clusters, CHEMICALREVIEWS, 115 (12):6112-6216; SI 10.1021/cr500506r JUN 24 2015TIPO B (1):


Artıculo (citas 22):Understanding optical activity in single-wall carbon nanotubesfrom �rst-principles studies, A. Sanchez-Castillo, Cecilia Noguez,J Phys Chem C 114, 9640 (2010)

TIPO A (22):159. Naoki Komatsu and Feng Wang A Comprehensive Review on Se-

paration Methods and Techniques for Single-Walled Carbon Nano-tubes, Materials 2010, 3(7), 3818-3844; doi:10.3390/ma3073818

158. F Wang, K Matsuda, A. F. M. Musta�zur Rahman, X Peng, T Kimuraand N Komatsu, Simultaneous Discrimination of Handedness andDiameter of Single-Walled Carbon Nanotubes (SWNTs) with Chi-ral Diporphyrin Nanotweezers Leading to Enrichment of a SingleEnantiomer of (6,5)-SWNTs, J. Am. Chem. Soc., 2010, 132 (31), pp10876–10881

157. Peng, XB; Wang, F; Bauri, AK; Rahman, AFMM; Komatsu, N OpticalResolution of Single-Walled Carbon Nanotubes through MolecularRecognition with Chiral Diporphyrin Nanotweezers, Chem. Lett. 39(10): 1022-1027 OCT 5 2010

156. Wang, F., Matsuda, K., Rahman, A.F.M.M., Kimura, T., Komatsu,N. Improved selectivity in discriminating handedness and dia-meter of single-walled carbon nanotubes with N-substituted 3,6-carbazolylene-bridged chiral diporphyrin nanotweezers, Nanos-cale 3 (10), 4117-4124

155. Srivastava, A.K., Pozhidaev, E.P., Chigrinov, V.G., Manohar, R. Singlewalled carbon nano-tube, ferroelectric liquid crystal composites:Excellent di�ractive tool, Applied Physics Letters 99 (20), art. no.201106 2011

154. Tagliapietra, S; Cravotto, G; Gaudino, EC; Visentin, S; Mussi, VFunctionalization of Single-Walled Carbon Nanotubes through 1,3-Cycloaddition of Carbonyl Ylides under Microwave Irradiation,SYNLETT, (10):1459-1462; 10.1055/s-0031-1290681 2012

153. Ying, W., Shaochun, H., Yihong, O., Yu Ching, L., Junjie, B., Yi, X. Mi-crofabrication of photodetector based on carbon nanotube array,2012, Journal of Nanoelectronics and Optoelectronics 7 (4) , 366-369

152. Wu, Y., Zheng, F., Bai, J., Zhang, X., Ou, Y., Zhou, Z. Simulation onelectrical �eld distribution of dielectrophoresis for carbon nano-tube, 2012, Proceedings of the 11th IEEE International Conferenceon Cognitive Informatics and Cognitive Computing, ICCI*CC 2012 ,art. no. 6311203 , 518-521

151. Xiang, Y., Jiang, Y., Zhang, X., Bai, J. Study on the electromagne-tic model for optical properties of optoelectronic devices basedon carbon nanotube, (2013) Bandaoti Guangdian/SemiconductorOptoelectronics, 34 (2) 197-199+203.

150. Ying, W., Cheng, Y.X., Shaochun, H., Yi, X., Yihong, O., Junjie, B.Photodetector based on carbon nanotube array, 2013, Journal ofNanoelectronics and Optoelectronics 8 (3) , 256-259

149. Ghosh, S; Bachilo, SM; Weisman, RB Structure-dependent OpticalActivity of Single-walled Carbon Nanotube Enantiomers, FULLERE-NES NANOTUBES AND CARBON NANOSTRUCTURES, 22 (1-3):269-279; SI 10.1080/1536383X.2013.812640 JAN 1 2014


147. Li, Y., Wang, X., Lv, R., Wang, F. Non-covalent separation of opti-cally active single-walled carbon nanotubes, Progress in ChemistryVolume 26, Issue 8, 15 August 2014, Pages 1361-1368



145. Wu, Y. , Bai, J., Huang, S., Zhang, X., Xiang, Y. Photoelectricity pro-perty of micro device based on carbon nanotubes, Proceedingsof 2014 IEEE 13th International Conference on Cognitive Infor-matics and Cognitive Computing, ICCI*CC 2014 10 October 2014,Article number 6921500, Pages 468-471, 13th IEEE InternationalConference on Cognitive Informatics and Cognitive Computing,ICCI*CC 2014; London South Bank University (LSBU)London; Uni-ted Kingdom; 18 August 2014 through 20 August 2014; CategorynumberCFP14312-ART; Code 108554

144. Nagy, PR; Biro, L; Koltai, J; Surjan, PR; Szabados, A; Kurti, J Theo-retical vibrational optical activity of chiral carbon nanoparticles:Fullerenes and carbon nanotubes, PHYSICA STATUS SOLIDI B-BASICSOLID STATE PHYSICS, 251 (12):2451-2456; 10.1002/pssb.201451206DEC 2014

143. Liu, D; Li, BZ; Guo, YM; Li, Y; Yang, YG, Inner Surface Chirality ofSingle-Handed Twisted Carbonaceous Tubular Nanoribbons, CHI-RALITY, 27 (11):809-815; 10.1002/chir.22496 NOV 2015

142. Magg, M; Kadria-Vili, Y; Oulevey, P; Weisman, RB; Buergi, T Reso-nance Raman Optical Activity Spectra of Single-Walled Carbon Na-notube Enantiomers, JOURNAL OF PHYSICAL CHEMISTRY LETTERS,7 (2):221-225; 10.1021/acs.jpclett.5b02612 JAN 21 2016

141. Nagy, PR; Koltai, J; Surjan, PR; Kurti, J; Szabados, A ResonanceRaman Optical Activity of Single Walled Chiral Carbon Nanotu-bes, JOURNAL OF PHYSICAL CHEMISTRY A, 120 (28):5527-5538;10.1021/acs.jpca.6b04594 JUL 21 2016

140. Correa, J.D., Florez, E., Mora-Ramos, M.E. Ab initio study of hy-drogen chemisorption in nitrogen-doped carbon nanotubes, 2016Physical Chemistry Chemical Physics 18 (36), pp. 25663-25670

139. Li, E.Y. Systematic and e�cient band tracing for chiral CNTs vianatural helical crystal lattice model, 2016 Carbon 110, pp. 336-342

138. Wei, X., Tanaka, T., Yomogida, Y., (...), Saito, R., Kataura, H.Experimental determination of excitonic band structures ofsingle-walled carbon nanotubes using circular dichroism spectra,2016 Nature Communications 7, 12899

Artıculo (citas 9):Optically active nanoparticles: Fullerenes, carbon nanotubes andmetal nanoparticles, Hidalgo, F; Cecilia Noguez, Physica StatusSolidi b 247 (8): 1889-1897 2010

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137. Hendler, N; Fadeev, L; Mentovich, ED; Belgorodsky, B; Gozin, M;Richter, S Bio-inspired synthesis of chiral silver nanoparticles inmucin glycoprotein-the natural choice, Chem. Comm. 47 (26):7419-7421 2011


135. Kokhkharov, A.M., Zakhidov, E.A., Gofurov, Sh.P., Bakhramov, S.A.,Makhmanov, U.K. Clusterization of fullerene C70 molecules in so-lutions and its in�uence to optical and nonlinear optical propertiesof solutions, International Journal of Nanoscience Volume 12, Issue4, August 2013, Article number 1350027


133. Nagy, PR; Biro, L; Koltai, J; Surjan, PR; Szabados, A; Kurti, J Theo-retical vibrational optical activity of chiral carbon nanoparticles:Fullerenes and carbon nanotubes, PHYSICA STATUS SOLIDI B-BASICSOLID STATE PHYSICS, 251 (12):2451-2456; 10.1002/pssb.201451206DEC 2014

132. Koktan, J., Sedlackova, H., Osante, I., Cativiela, C., Diaz Diaz, D.,Rezanka, P. Chiral supramolecular nanoparticles: The study of chi-ral surface modi�cation of silver nanoparticles by cysteine andits derivatives, Colloids and Surfaces A: Physicochemical and En-gineering Aspects Volume 470, April 01, 2015, Pages 142-148

131. Liu, D; Li, BZ; Guo, YM; Li, Y; Yang, YG, Inner Surface Chirality ofSingle-Handed Twisted Carbonaceous Tubular Nanoribbons, CHI-RALITY, 27 (11):809-815; 10.1002/chir.22496 NOV 2015

130. Bai, H. Chapter 12: Organic reactions using green photo-activenanomaterials, 2016 RSC Green Chemistry 2016-January (42), pp.294-308

129. Nagy, PR; Koltai, J; Surjan, PR; Kurti, J; Szabados, A ResonanceRaman Optical Activity of Single Walled Chiral Carbon Nanotubes,JOURNAL OF PHYSICAL CHEMISTRY A, 120 (28):5527-5538;10.1021/acs.jpca.6b04594 2016

Artıculo (citas 25):Role of morphology in the enhanced optical activity of ligand-protected metal nanoparticles, Cecilia Noguez, Sanchez-Castillo,A., Hidalgo, F., J Phys Chem Lett, 2 (9), 1038-1044 2011

TIPO A (25):128. Hartland, G.V., Schatz, G. Virtual issue: Plasmon resonances - A

physical chemistry perspective, Journal of Physical Chemistry C115 (31), 15121-15123 2011

127. Hartland, G.V. Assembling atoms to clusters and clusters to crys-tals, Journal of Physical Chemistry Letters 2 (9), 1111-1112 2011

126. Assaf Ben Moshe, Daniel Szwarcman, and Gil Markovich, Size De-pendence of Chiroptical Activity in Colloidal Quantum Dots, ACSNano, Articles ASAP (Publication Date (Web): October 3, 2011 (Ar-ticle) DOI: 10.1021/nn203234b

125. Govorov, A.O., Gun’Ko, Y.K., Slocik, J.M., Gerard, V.A., Fan, Z., Naik,R.R. Chiral nanoparticle assemblies: Circular dichroism, plasmonicinteractions, and exciton e�ects, 2011 Journal of Materials Che-mistry 21 (42), 16806-16818

124. Yao, H., Kitaoka, N., Sasaki, A. Chemical transformation of chi-ral monolayer-protected gold clusters: Observation of ligand sizee�ects on optical and chiroptical responses, Nanoscale 4 (3) , 955-963, 2012

123. Tsukuda, T. Toward an atomic-level understanding of size-speci�cproperties of protected and stabilized gold clusters, Bulletin of theChemical Society of Japan 85 (2) , 151-168, 2012

122. Akbari-Sharbaf, A., Hesari, M., Workentin, M.S., Fanchini, G. Elec-tron paramagnetic resonance in positively charged Au25 molecu-lar nanoclusters, 2013, Journal of Chemical Physics 138 (2) , art.no. 024305

121. Fernandez-Corbaton, I., Vidal, X., Tischler, N., Molina-Terriza, G.Necessary symmetry conditions for the rotation of light, 2013,Journal of Chemical Physics 138 (21) , art. no. 214311

120. Zhang, C., Song, C., Yang, W., Deng, J. Au at poly(N-propargylamide) nanoparticles: Preparation and chiral recogni-tion, 2013, Macromolecular Rapid Communications 34 (16) , 1319-1324


119. Zhang, K., Chen, H., Zhou, X., Gong, Y., Zhang, G., Wang, X., Chen,Y., Shi, J. Unconventional Pd nanoparticles growth induced by acompetitive e�ect between temperature-dependent coordinationand reduction of gra�ed amino ligands for Heck reaction, 2014, JMaterials Chem A 2 (5), 1515-1523


117. Yao, H., Kobayashi, R. Chiral monolayer-protected Au-Pd bimeta-llic nanoclusters: E�ect of palladium doping on their chiropticalresponses, 2014, J Colloid and Interface Science 419 , pp. 1-8

116. Govan, J.a, Loudon, A.a, Baranov, A.V.b, Fedorov, A.V.b, Gun’ko, Y.Chiral quantum dot based materials, Proceedings of SPIE - The In-ternational Society for Optical Engineering Volume 9126, 2014, Ar-ticle number 912619 Nanophotonics V; Brussels; Belgium; 13 April2014 through 17 April 2014; Code 105666

115. Kobayashi, R., Nonoguchi, Y., Sasaki, A., Yao, H. Chiral monolayer-protected bimetallic Au-Ag nanoclusters: Alloying e�ect on theirelectronic structure and chiroptical activity, Journal of PhysicalChemistry C Volume 118, Issue 28, 17 July 2014, Pages 15506-15515

114. Fernandez-Corbaton, I. Helicity and duality symmetry in lightmatter interactions: Theory and applications, arXiv preprint ar-Xiv:1407.4432 (2014).

113. Ueno, R., Yao, H. In�uence of surface protonation-deprotonationstimulion the chiroptica l responses of (R)-/(S)-mercaptosuccinicacid-protected gold nanoclusters, Chemistry Letters Volume 44,Issue 2, 2015, Pages 171-173

112. Bousquet, B, Cherif, M., Huang, K., & Rabilloud, F. Absorption Spec-tra of Aryl Thiol Coated Silver Nanoclusters: A Time-DependentDensity Functional Study, The Journal of Physical Chemistry C(2015) 119 (8), pp. 4268-4277.

111. Akin, S.T., Liu, X., Duncan, M.A. Laser synthesis and spectroscopyof acetonitrile/silver nanoparticles, 2015 Chemical Physics Letters640, pp. 161-164

110. Gerard, V., Govan, J., Loudon, A., (...), Fedorov, A.V., Gun’ko, Y.K.Optically active quantum dots, 2015 Proceedings of SPIE - TheInternational Society for Optical Engineering 9545, 95450N

109. Yao, H., Kobayashi, R., Nonoguchi, Y. Enhanced Chiroptical Activityin Glutathione-Protected Bimetallic (AuAg)18 Nanoclusters with Al-most Intact Core-Shell Con�guration, 2016 Journal of Physical Che-mistry C 120 (2), pp. 1284-1292

108. Bousquet, B., Cherif, M., Huang, K., Rabilloud, F. Absorption spectraof aryl thiol-coated silver nanoclusters: A time-dependent density-functional study, 2015 Journal of Physical Chemistry C 119 (8)4268-4277

107. Yao, H; Iwatsu, M Water-Soluble Phosphine-Protected Au-11 Clus-ters: Synthesis, Electronic Structure, and Chiral Phase Transfer ina Synergistic Fashion, LANGMUIR, 32 (13):3284-3293 2016



104. Takano, S., Tsukuda, T. Ampli�cation of the Optical Activity ofGold Clusters by the Proximity of BINAP, 2016 Journal of PhysicalChemistry Letters 7 (22), pp. 4509-4513

Artıculo (citas 12):

Designing the plasmonic response of shell nanoparticles: spectralrepresentation, C. E. Roman-Velazquez, Cecilia Noguez, Journalof Chemical Physics 114(4), 044116-1 – 044116-14 (2011)

TIPO A (12):

103. Wu, P.C., Losurdo, M., Kim, T.-H., Garcia-Cueto, B., Moreno, F.,Bruno, G., Brown, A.S. Ga-Mg Core-shell nanosystem for a no-vel full color plasmonics, Journal of Physical Chemistry C 115 (28),13571-13576 2011

102. Tan, QY; Xu, ML; Wu, JY; Yin, HF; Zhang, JQ Preparation andcharacterization of poly(lactic acid) nanoparticles for sustainedrelease of pyridostigmine bromide, Pharmazie, 67 (4):311-318;10.1691/ph.2012.1103 APR 2012

101. Mammo, E.D., Marques-Hueso, J., Richards, B.S. Nanoplasmonicsfor photovoltaic applications, 2012, Proceedings of SPIE - The In-ternational Society for Optical Engineering 8438 , art. no. 84381M

100. Yan, W., Xu, L., Xu, C., Ma, W., Kuang, H., Wang, L., Kotov, N.A. Self-assembly of chiral nanoparticle pyramids with strong R/S opticalactivity, 2012, J. Am. Chem. Soc. 134 (36) , 15114-15121 4

99. Qiu, WJ; DeLacy, BG; Johnson, SG; Joannopoulos, JD; Soljacic, MOptimization of broadband optical response of multilayer nanosp-heres, Optics Express, 20 (16):18494-18504; JUL 30 2012

98. Gulen, D. Optical response of lorentzian nanoshells in the quasis-tatic limit, 2013, Journal of Physical Chemistry B 117 (38) , 11220-11228

97. Arnold, M., Blaber, M., Ford, M. Local plasmon resonances ofmetal-in-metal core-shells, Optics Express 22 (3), 2014, 3186-3198

96. Miller, O.D., Hsu, C.W., Reid, M.T.H., Qiu, W., Delacy, B.G., Joan-nopoulos, J.D., Soljacic, M., Johnson, S.G. Fundamental limits toextinction by metallic nanoparticles, Physical Review Letters 112,Issue 12, 1 December 2013, Article number 123903

95. Sikdar, D., Rukhlenko, I.D., Cheng, W., Premaratne, M. Tuna-ble Broadband Optical Responses of Substrate-Supported Me-tal/Dielectric/Metal Nanospheres, Plasmonics Volume 9, Issue 3,June 2014, Pages 659-672

94. Ross, M.B., Schatz, G.C. Aluminum and indium plasmonic nanoan-tennas in the ultraviolet, Journal of Physical Chemistry C 118, Issue23, 12 June 2014, Pages 12506-12514

93. Zapata, M., Beltran, A.S.C., Borisov, A.G., Aizpurua, J. Quantum ef-fects in the optical response of extended plasmonic gaps: Valida-tion of the quantum corrected model in core-shell nanomatryush-kas, 2015 Optics Express 23 (6), pp. 8134-8149

92. Marinica, D.-C., Aizpurua, J., Borisov, A.G. Quantum e�ects in theplasmon response of bimetallic core-shell nanostructures, 2016Optics Express 24 (21), pp. 23941-23956

Artıculo (citas 20):Electromagnetic Field Enhancement at the Edge of MetalNanostructures, Angulo, Ali; Cecilia Noguez; Schatz, George TheJournal of Physical Chemistry Letters 2, 1978–1983 (2011)

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91. Mortazavi, D., Kouzani, A.Z., Kaynak, A., Duan, W. Developing LSPRdesign guidelines(2012) Progress in Electromagnetics Research,126 203-235.

90. Khajehpour, K.J., Williams, T., Bourgeois, L., Adeloju, S. Goldnanothorns-macroporous silicon hybrid structure: A simple and ul-trasensitive platform for SERS, 2012 Chem. Comm. 48 (43) , 5349-5351


89. Kirkeminde, A; Retsch, M; Wang, Q; Xu, GW; Hui, RQ; Wu, J; Ren, SQSurface-passivated plasmonic nano-pyramids for bulk heterojun-ction solar cell photocurrent enhancement, Nanoscale, 4 (15):4421-4425; 10.1039/c2nr30735a 2012

88. Koen, K.A., Weber, M.L., Mayer, K.M., Fernandez, E., Willets, K.A.Spectrally-resolved polarization anisotropy of single plasmonicnanoparticles excited by total internal re�ection, 2012, J. Phys.Chem. C 116 (30) , 16198-16206

87. Ramos, R., Gordon, M.J. Re�ection-mode, confocal, tip-enhancedRaman spectroscopy system for scanning chemical microscopy ofsurfaces, 2012, Review of Scienti�c Instruments 83 (9) , art. no.093706

86. Mortazavi, D., Kouzani, A.Z., Matekovits, L. Evolution towards a newlspr particle: Nano-sinusoid, (2012) Progress in ElectromagneticsResearch, 132 199-213.

85. Sivapalan, S.T., Devetter, B.M., Yang, T.K., Schulmerich, M.V., Bhar-gava, R., Murphy, C.J. Surface-enhanced Raman spectroscopy ofpolyelectrolyte-wrapped gold nanoparticles in colloidal suspen-sion, (2013) Journal of Physical Chemistry C, 117 (20) 10677-10682.

84. Valagiannopoulos, C.A., Sihvola, A. Improving the electrostatic �eldconcentration in a negative-permittivity wedge with a grounded“bowtie” con�guration, 2013, Radio Science 48 (3) , 316-325

83. Valagiannopoulos, C.A., Sihvola, A. On enhancing the �eld in thevicinity of a metamaterial wedge with use of an auxiliary die-lectric tip, 2013, 2013 7th European Conference on Antennas andPropagation, EuCAP 2013 , art. no. 6546951 , 3452-3456

82. Patala, S., Marks, L.D., Olvera De La Cruz, M. Thermodynamicanalysis of multiply twinned particles: Surface stress e�ects, 2013,J Phys Chem Letters 4 (18) , 3089-3094

81. Fan, Z., Kanchanapally, R., Ray, P.C. Hybrid graphene oxide basedultrasensitive SERS probe for label-free biosensing, 2013, J PhysChem Lett 4 (21) , 3813-3818

80. Kanchanapally, R., Sinha, S.S., Fan, Z., Dubey, M., Zakar, E., Ray,P.C. Graphene oxide-gold nanocage hybrid platform for trace levelidenti�cation of nitro explosives using a raman �ngerprint, (2014)Journal of Physical Chemistry C, 118 (13) pp. 7070-7075.

79. Bryks, W., Wette, M., Velez, N., Hsu, S.-W., Tao, A.R. Supramolecu-lar precursors for the synthesis of anisotropic Cu2S nanocrystals,Journal of the American Chemical Society 136, Issue 17, 30 April2014, Pages 6175-6178

78. Mischok, A., Bruckner, R., Sudzius, M., Reinhardt, C., Lyssenko, V.G.,Frob, H., Leo, K. Photonic con�nement in laterally structured metal-organic microcavities, Applied Physics Letters Volume 105, Issue 5,4 August 2014, Article number 051108

77. Lu, P., Wang, D., Wan, L.-J. Tip-enhanced Raman spectroscopy insingle molecule science, Chemistry Bulletin / Huaxue Tongbao Vo-lume 77, Issue 8, 1 August 2014, Pages 735-742

76. Maity, A; Maiti, A; Das, P; Senapati, D; Chini, TK E�ect of IntertipCoupling on the Plasmonic Behavior of Individual Multitipped GoldNano�ower, ACS PHOTONICS, 1 (12):1290-1297; 10.1021/ph500309jDEC 2014

75. Huang, TX; Huang, SC; Li, MH; Zeng, ZC; Wang, X; Ren, BTip-enhanced Raman spectroscopy: tip-related issues, ANALY-TICAL AND BIOANALYTICAL CHEMISTRY, 407 (27):8177-8195;10.1007/s00216-015-8968-8 NOV 2015

74. Paul, AM; Fan, Z; Sinha, SS; Shi, YL; Le, LD; Bai, FW; Ray, PC Bio-conjugated Gold Nanoparticle Based SERS Probe for UltrasensitiveIdenti�cation of Mosquito-Borne Viruses Using Raman Fingerprin-ting, JOURNAL OF PHYSICAL CHEMISTRY C, 119 (41):23669-23675;10.1021/acs.jpcc.5b07387 OCT 15 2015

73. Cicala, G., Massaro, A., Velardi, L.,Senesi, GS; Perna, G; Marzulli,D; Melisi, D; De Pascali, G; Valentini, A., Capozzi, V. Enhancementof surface electrical current on silicon via nanodiamond particlesdeposited by pulsed spray technique, 2015 Physica Status Solidi(A) Applications and Materials Science 212 (12), pp. 2862-2868

72. Kanchanapally, R., Fan, Z., Wesley, W., (...), Chavva, S.R., Ray, P.C.Detection of melamine from food in parts per quadrillion levelusing functionalized graphene oxide- gold nanoparticle hybridSERS platform, 2014 Source of the DocumentFood Poisoning:Outbreaks, Bacterial Sources and Adverse Health E�ects pp.239-253

Artıculo (citas 9):Map of the Structural and Optical Properties of Gold Nanoparticlesat Thermal Equilibrium, Ana L. Gonzalez; Cecilia Noguez; AmandaS. Barnard, Journal of Physical Chemistry C 116, 14170 –14175(2012)

TIPO A (8):

71. Laha, R., Kasiviswanathan, S. Morphological changes of suppor-ted gold nanoparticles in Au(In) 2O3(Si): An atomic force micros-copic study, 2013, AIP Conference Proceedings 1536, PROCEEDINGOF INTERNATIONAL CONFERENCE ON RECENT TRENDS IN APPLIEDPHYSICS & MATERIAL SCIENCE (RAM 2013) 235-236

70. Patala, S., Marks, L.D., Olvera De La Cruz, M. Thermodynamicanalysis of multiply twinned particles: Surface stress e�ects, 2013,J Phys Chem Letters 4 (18) , 3089-3094

69. BERANEK, Bc JIRI. Surface Plasmon Resonances on Colloidal Na-noparticles. Brno: Vysoke ucentechnickv Brno, Fakulta strojnıhoinzenyrstvı, 2013.

68. Lan, Y.-K., Su, C.-H., Sun, W.-H., Su, A.-C. Nucleation of decahedralAg nanocrystals, RSC Advances Volume 4, Issue 27, 2014, Pages13768-13773

67. Lopez, C., Reyes Contreras, D., Mayorga Rojas, M., Diaz Sanchez, L.E., Reyes Contreras, A., Arriera Castaneda, A., ... Camacho Lopez,S Sıntesis de puntos cuanticos de CdTe mediante la tecnica deablacion laser de solidos en lıquidos, Super�cies y vacıo, 2014,vol. 27, no 3, p. 93-97.

66. Mengle, KA; Richardson, JN; Kegerreis, JS Modeling of theprocessing dynamics of aerogel/gold nanoparticle composi-tes, MATERIALS CHEMISTRY AND PHYSICS, 148 (1-2):478-484;10.1016/j.matchemphys.2014.08.021 NOV 14 2014


64. Lawrence, M; Testen, A; Koklic, T; Smithies, O A Simple Methodfor the Size Controlled Synthesis of Stable Oligomeric Clusters ofGold Nanoparticles under Ambient Conditions, JOVE-JOURNAL OFVISUALIZED EXPERIMENTS, (108):10.3791/53388 FEB 2016TIPO B (1):

63. Sun, B., Fernandez, M., Barnard, A. S. Statistics, damned statisticsand nanoscience - using data science to meet the challenge ofnanomaterial complexity, Nanoscale Horizons, 1(2), 89-95, (2016)

Artıculo (citas 8):Optical Activity of Achiral Ligand SCH3 Adsorbed on AchiralAg55 Clusters: Relationship between Adsorption Site and CircularDichroism, Francisco Hidalgo; Cecilia Noguez; ACS Nano 7, 513 –521 (2013)

TIPO A (8):


62. Wang, X., Zou, Y., Zhu, J., Wang, Y. Silver cholesteric liquid crysta-lline: Shape-dependent assembly and plasmonic chiroptical res-ponse, 2013, J Phys Chem C 117 (27), 14197-14205


60. Xu, H., Cheng, D. E�ect of the Passivating Ligands on the Geometricand Electronic Properties of Au?Pd Nanoalloys, Journal of ClusterScience Volume 26, Issue 3, 1 May 2015, Pages 799-813

59. Fernando, A., Weerawardene, K.L.D.M., Karimova, N.V., Aikens, C.M.Quantum Mechanical Studies of Large Metal, Metal Oxide, andMetal Chalcogenide Nanoparticles and Clusters, 2015 Chemical Re-views 115 (12), 6112-6216

58. Choi, JK; Haynie, BE; Tohgha, U; Pap, L; Elliott, KW; Leonard, BM;Dzyuba, SV; Varga, K; Kubelka, J; Balaz, M Chirality Inversion of Cd-Se and CdS Quantum Dots without Changing the Stereochemistryof the Capping Ligand, ACS NANO, 10 (3):3809-3815; 10.1021/acs-nano.6b00567 MAR 2016

57. Wang, YK; Deng, JC; Wang, G; Fu, T; Qu, Y; Zhang, ZY Plas-monic chirality of L-shaped nanostructure composed of two sli-ces with di�erent thickness, OPTICS EXPRESS, 24 (3):2307-2317;10.1364/OE.24.002307 FEB 8 2016

56. Chang, L., Fisher, A., Liu, Z., Cheng, D. A density functional theorystudy of sulfur adsorption on Ag-Au nanoalloys, 2016 Computatio-nal and Theoretical Chemistry 1085, June 01, 2016, Pages 66-74

55. J. Govan and Y. K. Gun’ko, Recent progress in chiral inorganicnanostructures, in SPR Nanoscience: Volume 3, 2016, 3, pp. 1-30

Artıculo (citas 5):Mapping the Structural and Optical Properties of AnisotropicGold Nanoparticles, Ana L. Gonzalez; Cecilia Noguez; Amanda S.Barnard J Materials Chem C 1(18), 3150 - 3157 (2013)

TIPO A (5):54. Koay, N., Burgess, I.B. , Kay, T.M., Nerger, B.A., Miles-Rossouw, M.,

Shirman, T., Vu, T.L., England, G., Phillips, K.R.f, Utech, S., Vogel,N., Kolle, M., Aizenberg, J. Hierarchical structural control of visualproperties in self-assembled photonic-plasmonic pigments, OpticsExpress Volume 22, Issue 23, 17 November 2014, Pages 27750-27768

53. Batra, S., Unsal, E., Cakmak, M. Directed electric �eld Z-alignmentkinetics of anisotropic nanoparticles for enhanced ionic conducti-vity, Advanced Functional Materials Volume 24, Issue 48, 23 De-cember 2014, Pages 7698-7708


51. Constantin, D. Why the aspect ratio? Shape equivalence for theextinction spectra of gold nanoparticles, 2015 European PhysicalJournal E 38 (11), 116, pp. 1-6

50. Mori, T., Hegmann, T. Determining the composition of goldnanoparticles: a compilation of shapes, sizes, and calculationsusing geometric considerations, 2016 Journal of NanoparticleResearch18 (10), 295

Artıculo (citas 9):Size, Shape, Stability and Color of Plasmonic Silver Nanoparticles,Gonzalez, Ana; Cecilia Noguez; Beranek, Jiri; Barnard, Amanda, JPhys Chem C 118 (17), pp 9128–9136 (2014)

TIPO A (8):


48. Karim, W; Tschupp, SA; Oezaslan, M; Schmidt, TJ; Gobrecht, J; vanBokhoven, JA; Ekinci, Y High-resolution and large-area nanopar-ticle arrays using EUV interference lithography, NANOSCALE, 7(16):7386-7393; 10.1039/c5nr00565e 2015

47. Yan, ZR; Peng, Y; Wu, Y; Di, JW Controllable Electrochemical Synt-hesis of Silver Nanoparticles on Indium-Tin-Oxide-Coated Glass,CHEMELECTROCHEM, 2 (4):578-583; 10.1002/celc.201402369 APR15 2015

46. Lopes, JH; Ye, SY; Gostick, JT; Barralet, JE; Merle, G ElectrocatalyticOxygen Reduction Performance of Silver Nanoparticle DecoratedElectrochemically Exfoliated Graphene, LANGMUIR, 31 (35):9718-9727; 10.1021/acs.langmuir.5b00559 SEP 8 2015

45. Andres, J; Gracia, L; Gouveia, AF; Ferrer, MM; Longo, E E�ects ofsurface stability on the morphological transformation of metalsand metal oxides as investigated by �rst-principles calculations,NANOTECHNOLOGY, 26 (40):10.1088/0957-4484/26/40/405703OCT 9 2015

44. Patil, S., George, T., Mahadik, K. Green synthesized nanosilver loa-ded silk �broin gel for enhanced wound healing, 2015 Journal ofDrug Delivery Science and Technology 30, pp. 30-36

43. Shahid-ul-Islam; Butola, BS; Mohammad, F Silver nanomaterials asfuture colorants and potential antimicrobial agents for natural andsynthetic textile materials, RSC ADVANCES, 6 (50):44232-44247;10.1039/c6ra05799c 2016

42. Liu, S., Yang, H., Zhao, X., (...), Zhang, L., Xing, R. Microwave-assisted synthesis of colloidal Ag nanocrystals and colorimetricdetection of mercury (I and II) ions in aqueous solution, 2016 Jour-nal of Nanoscience and Nanotechnology 16 (12), pp. 12326-12331TIPO B (1):

41. Barnard, A.S. Clarifying stability, probability and populationin nanoparticle ensembles, Nanoscale Volume 6, Issue 17, 7September 2014, Pages 9983-9990

Artıculo (citas 6):Metallic in�uence on the atomic structure and optical activity ofligand-protected nanoparticles: a comparison between Ag andAu, Francisco Hidalgo; Cecilia Noguez; M. Olvera de la Cruz,Nanoscale 6 (6), 3325 - 3334 (2014)

TIPO A (6):40. Fernando, A; Dimuthu, KL; Weerawardene, M; Karimova, NV; Ai-

kens, CM Quantum Mechanical Studies of Large Metal, Metal Oxi-de, and Metal Chalcogenide Nanoparticles and Clusters, CHEMICALREVIEWS, 115 (12):6112-6216; SI 10.1021/cr500506r JUN 24 2015

39. Pelayo, J.J., Whetten, R.L., Garzon, I.L. Geometric Quanti�cation ofChirality in Ligand-Protected Metal Clusters, 2015 Journal of Phy-sical Chemistry C 119 (51), pp. 28666-28678

38. Yao, H., Kobayashi, R., Nonoguchi, Y. Enhanced Chiroptical Activityin Glutathione-Protected Bimetallic (AuAg)18 Nanoclusters with Al-most Intact Core-Shell Con�guration, 2016 Journal of Physical Che-mistry C 120 (2), pp. 1284-1292

37. Ranasingha, O; Wang, H; Zobac, V; Jelinek, P; Panapitiya, G; Neu-kirch, AJ; Prezhdo, OV; Lewis, JP Slow Relaxation of Surface Plas-mon Excitations in Au-55: The Key to E�cient Plasmonic Heating inAu/TiO2, JOURNAL OF PHYSICAL CHEMISTRY LETTERS, 7 (8):1563-1569; 10.1021/acs.jpclett.6b00283 APR 21 2016

36. J. Govan and Y. K. Gun’ko, Recent progress in chiral inorganic na-nostructures, in Nanoscience: Volume 3, 2016, 3, pp. 1-30


35. Ranasingha, O., Wang, H., Zobac, V., (...), Prezhdo, O.V., Lewis,J.P. Slow Relaxation of Surface Plasmon Excitations in Au55: TheKey to E�cient Plasmonic Heating in Au/TiO2, 2016 Journal ofPhysical Chemistry Letters 7 (8) 1563

Artıculo (citas 6):Adsorption of a Methylthio Radical on Silver Nanoparticles: SizeDependence, David Becerril; Cecilia Noguez; J Phys Chem C 119(20), pp 10824–10835 (2015)TIPO A (6):

34. Harris, R. A.; Mlambo, M.; Mdluli, P. S. Qualitative analysis of so-me alkanethiols on Au nanoparticles during SERS, RSC ADVANCESVolume: 6 Issue: 15 Pages: 12131-12142 Published: 2016

33. Chugh, M., Ranganathan, M. Adatom Interactions on GaN(0001)Surface I: Coverage-Dependent Adsorption, 2016 Journal of Phy-sical Chemistry C 120 (15), pp. 8076-8086

32. ISHIMOTO, T., INADOMI, Y., HONDA, H., KOYAMA, M. Parallel Perfor-mance Analysis for Electronic Structure Calculation of Metal Na-noparticles, Journal of Computer Chemistry, Japan, 14(3), 52-53,(2015).

31. Prakash, J., Kumar, P., Harris, R.A., (...), Van Vuuren, A.J., Swart, H.C.Synthesis, characterization and multifunctional properties of plas-monic Ag-TiO2 nanocomposites, 2016 Nanotechnology 27 (35),355707


29. Mlambo, M., Hlatshwayo, T.T., Moloto, N., Mdluli, P.S. Compu-tational and experimental evaluation of selective substitution ofthiolated coumarin derivatives on gold nanoparticles: Surfaceenhancing Raman scattering and electrochemical studies, 2017Applied Surface Science 396, pp. 695-704

Artıculo (citas 10):Chiral Atomically Thin Films, Cheol-Joo Kim, A. Sanchez-Castillo,Zack Ziegler, Yui Ogawa, Cecilia Noguez, and Jiwoong Park,Nature Nanotechnology11, 520–524 (2016)

TIPO A (10):28. T Chari, R Ribeiro-Palau, CR Dean, KL Shepard, Resistivity of rotated

graphite-graphene contacts, Nano Lett., 2016 (Communication) 16,Issue 7, 13 July 2016, Pages 4477-4482

27. Z Tan, J Yin, C Chen, H Wang, L Lin, L Sun, J Wu, X Sun, H Yang, YChen, H Peng, and Z Liu, Building Large-Domain Twisted BilayerGraphene with van Hove Singularity, ACS Nano, 2016 10 (7), pp.6725-6730

26. Nguyen, V.L., Perello, D.J., Lee, S., (...), Jeong, S.-Y., Lee, Y.H. Wafer-Scale Single-Crystalline AB-Stacked Bilayer Graphene, 2016 pp.8177-8183

25. Koo, E., Kim, S., Ju, S.-Y. Relationships between the optical andRaman behavior of van Hove singularity in twisted bi- and fewlayer graphenes and environmental e�ects, 2017 Carbon 111, pp.238-247

24. Zheng, X., Gao, L., Yao, Q., (...), Luo, J., Wang, X. Robust ultra-low-friction state of graphene via moire superlattice con�nement, 2016Nature Communications 7, 13204

23. Basov, D.N., Fogler, M.M., GarcIa De Abajo, F.J. Polaritons in vander Waals materials, 2016 Science 354 (6309), aag1992

22. Jungwirth, N.R., Calderon, B., Ji, Y., (...), Flatte, M.E., Fuchs, G.D.Temperature Dependence of Wavelength Selectable Zero-PhononEmission from Single Defects in Hexagonal Boron Nitride, 2016Nano Letters 16 (10), pp. 6052-6057

21. Di Mauro, A., Randazzo, R., Spano, S.F., (...), DUrso, A., Purrello, R.Vortexes tune the chirality of graphene oxide and its non-covalenthosts, 2016 Chemical Communications 52 (89), pp. 13094-13096

20. Yu, K; Kim, J; Kim, JY; Lee, W; Hwang, JY; Hwang, EH; Choi, EJ Infraredspectroscopic study of carrier scattering in gated CVD graphene,PHYSICAL REVIEW B, 94 (23):10.1103/PhysRevB.94.235404 DEC 22016

19. Lin, J., Zhang, N., Tong, L., Zhang, J. Enhanced Raman Scatteringon Graphene and beyond, 2016 ACS Symposium Series1246, pp.97-119

Artıculo (citas 1):Plasmonics of multifaceted metallic nanoparticles, �eld enhance-ment and TERS, Cecilia Noguez, C.J. Villagomez, A.L. Gonzalez,Physica Status Solidi B 252, 56–71 (2015)

TIPO A (1):18. Maurer, R.J., Ruiz, V.G., Camarillo-Cisneros, J., (...), Reuter, K.,

Tkatchenko, A. Adsorption structures and energetics of moleculeson metal surfaces: Bridging experiment and theory, 2016 Progressin Surface Science 91 (2) 72-100

Artıculo (citas 1):Ab initio electronic circular dichroism of fullerenes, single-walledcarbon nanotubes and ligand-protected metal nanoparticles,Cecilia Noguez; Francisco Hidalgo; Chirality 26 (9), 553 –562(2014)

TIPO A (1):17. Watanabe, G; Yoshida, J Molecular Dynamics Approach for

Predicting Helical Twisting Powers of Metal Complex Dopants inNematic Solvents, J Phys Chem B 120 (27):6858-6864 2016

Artıculo (citas 1):How to Control Optical Activity in Organic-Silver Hybrid Nanopar-ticles, Francisco Hidalgo; Cecilia Noguez; Nanoscale 8 (30), pp.14457-14466 (2016)

TIPO A (1):16. Yao, H; Shiratsu, T Improving the Quality of Electrophoretically-

fractionated Chiral Au-38(SG)(24) Nanoclusters through a StepwisePhase-transfer Extraction Process: An Absorption and CD Spectros-copic Study, CHEMISTRY LETTERS, 46 (1):104-107; 2017Capıtulo en libro (citas 1):Quantum mechanical calculations of electronic and opticalproperties of semiconductor surfaces, Cecilia Noguez, and OliviaPulci, “Quantum Chemical Calculations of Surfaces and Interfacesof Materials”, pages 217 –248, Editors: V. A. Basiuk and P.Ugliengo, American Scienti�c Publishers (2009)

TIPO B (1):15. Marsili M, Pulci O The fascinating physics of carbon surfaces:

�rst-principles study of hydrogen on C(001), C(111) and graphene,J. Phys D-App. Phys. 43, 374016 (2010)

Memoria (citas 1):The optical response of composites at low �lling fractions: a newdiagrammatic summation, R. G. Barrera, Cecilia Noguez, y E. V.Anda, Surface Sciences: lectures on basic concepts and applica-tions, pags. 249-255, ed. por F.A. Ponce y M. Cardona, Springer-Verlag, Berlın, (1991)TIPO B (1):


14. R. G. Barrera, M. del Castillo–Mussot, G. Monsivais, P. Villaseor,and W. L. Mochan, Optical properties of two-dimensionaldisordered systems on a substrate, Phys. Rev. B 43, 13819 (1991)

Memoria (citas 3):Dielectric response of a chain of disorded polarizable spheres:numerical simulation and theory, Pedro Villasenor-Gonzalez,Cecilia Noguez, Ruben G. Barrera, Applications of multiplescattering theory to material science, MRS Symposium Pro-ceedings, Vol. 253, pags. 123-128, ed. por William H. Butler,Peter H. Dederichs, A. Gonis and R. Weaver, MRS, Pittsburgh, (1992)

TIPO A (3):

13. A. Gonis and W.H. Butler, Multiple Scattering in Solids, pag. 5,(Springer – Verlag, New York), 2000

12. Cruz-Mandujano J, Mendoza BS Disorder e�ects on second-harmonic generation from one-dimensional arrays of polarizableunits, Phys. Rev. B 62, 8438 (2000)

11. Cruz J, Jonguitud E, Mendoza BS Second-harmonic generationfrom disordered 1D chains of polarizable-spheres, Physica A 241,12 (1997)

Memoria (citas 1):Optical signature of the GaN(1010) surface, Cecilia Noguez, R.Esquivel-Sirvent, D.R. Alfonso, S.E. Ulloa and D.A. Drabold, MRSSymposium Proceedings Vol. 449, pp. 911-916, (1997); editadopor F.A. Ponce, T.D. Moustakas, I. Akasaki, B.A. Monemar

TIPO A (1):

10. Mo YH, Nahm KS, Yang SH, Kim KC, Lee WH, Suh EK, Lim KYGrowth and characterization of GaN thin �lms on beta-SiC/Sisubstrate using rapid thermal chemical vapor deposition J KoreanPhys Soc 34, S364 Suppl. S (1999)

Memoria (citas 3):Casimir Forces between thermally activated nanocomposites, REsquivel-Sirvent, C. Villarreal, Cecilia Noguez, MRS SymposiumProceedings Vol. 703, pp. 99 – 104, (2002)

TIPO B (3):

9. J. Barcenas, L. Reyes, R. Esquivel Sirvent, Casimir force betweenbimetallic heterostructures, physica status solidi (c) 2, 3059 (2005)

8. Esquivel-Sirvent, R., Reyes, L., Barcenas, J., Stability and the proxi-mity theorem in Casimir actuated nano devices, (2006) New Jour-nal of Physics, 8 241.

7. R. Esquivel-Sirvent, Casimir force calculations near the insulator-conductor transition in gold thin �lms, Phys. Rev. A 77, 042107(2008)

Memoria (citas 4):Light Scattering of isolated nanoparticles with arbitrary shapes,Cecilia Noguez, I. Sosa, R.G. Barrera. 2001 Fall Meeting Proc.,Symposium W Nanoparticulate Materials, Editors: R.K. Singh, R.Partch, M. Muhammed, M. Senna, H. Hofmann, MRS ProceedingsVolume 704, pag. 275 – 280 (2002)

TIPO A (4):

6. Kumbhar, A. S.; Kinnan, M. K.; Chumanov, G.; Multipole PlasmonResonances of Submicron Silver Particles, J. Am. Chem. Soc.; (Com-munication); 2005; 127(36); 12444-12445.

5. Kan, CX; Zhu, JJ; Zhu, XG, Silver nanostructures with well-controlledshapes: synthesis, characterization and growth mechanisms, J.Physics D: Appl. Phys. 41, 155304 (2008)

4. Fitzgerald, TM; Marciniak, MA; Nauyoks, SE Development of a tu-nable polarimetric scatterometry system in the MWIR and LWIR,Re�ection, Scattering, and Di�raction from Surfaces II 7792: Art.No. 779209 2010

3. T M. Fitzgerald, M A. Marciniak Full Optical Scatter Analysisfor Novel Photonic and Infrared Metamaterials, ConferenceProceedings of the Society for Experimental Mechanics Series, 1,Volume 2, MEMS and Nanotechnology, Volume 2, Pages 97-105

Memoria (citas 1):Casimir force between a sphere and a plane: spectral represen-tation formalism, Cecilia Noguez, C. E. Roman-Velazquez, enlas memorias de “Quantum Field Theory Under the In�uence ofExternal Conditions”, pags. 97 – 103, Rinton Press, Ed. por K. A.Milton (2004)

TIPO A (1):

2. Milton, Kimball A. J. Phys A37, R209 (2004)

Artıculo (citas 1):Comunicacion PrivadaTIPO A (1):

1. K. Pedersen and P. Morgen, Dispersion of 2nd harmonic generationon Si(111)-7×7, Phys Rev B 52, R2277, (1995).

LISTA DE TRABAJOS EN CONGRESOS CON PARTICIPACION REGULAR

134 presentaciones regulares de un total de 291 que incluye conferencias invitadas

292. Controlling Optical Activity in Two-atom-thick Graphene, CeciliaNoguez, A Sanchez-Castillo, 18 International Conferences in SolidFilms and Surfaces, Chemnitz, Alemania, August 28 to Sept. 2 2016

291. PLASMONIC RESPONSE OF GOLD NANORODS: SHAPE, SIZE ANDORIENTATION DEPENDENCE, Ana L Gonzalez, Cecilia Noguez XXVInternational Materials Research Congress 16-20 Agosto 2016

290. Radiative Heat Transfer Between Plasmonic Nanoparticles, D. Be-cerril, Cecilia Noguez XXV International Materials Research Con-gress 16-20 Agosto 2016

289. E�ects of core size and position on the near �eld of Au-Agcore-shell nanoprolate dimers, H. Batiz, G. Pirruccio, Cecilia No-guez XXV International Materials Research Congress 16-20 Agosto2016

288. Morphology and optical activity: understanding electronic circulardichroism in ligand-protected noble metal nanoparticles, F Hidal-go, Cecilia Noguez XXV International Materials Research Congress16-20 Agosto 2016

287. Designing the plasmonic modes in nanoparticles, D. Becerril, Ce-


cilia Noguez Heat Transfer and Heat Conduction on the Nanoscale,Physikzentrum Bad Honnef, Alemania Abril 2016

286. Morphological Changes of Plasmonic Nanoparticles when the sys-tem is heated up, A. L. Gonzalez, Cecilia Noguez, Amanda S. Bar-nard, International Symposium on Interaction of Radiation withMatter 2015 Toluca, Edo. de MExico 11 al 13 de nov. de 2015

285. Map of Structural and Optical Properties of Plasmonic Nanopar-ticles at Thermal Equilibrium,A. L. Gonzalez, Cecilia Noguez,Amanda S. Barnard, Conference on Frontiers of Nanoscience, ICTP,Miramare- Trieste, Italy 24 de agosto a 1o de septiembre de 2015

284. Optical and Structural Properties of silver and gold nanoparticlesas a function of size and temperature, A. L. Gonzalez, CeciliaNoguez, Amanda S. Barnard, XXIV International Materials ResearchCongress, Canc˙n, MExico 16 a 20 de agosto, 2015

283. Mathematical Aspects of Recursive E�ective Medium Theories inLayered Nanoparticles, Rafael Dıaz, Raul Esquivel, Cecilia No-guezXXIV International Materials Research Congress 16-20 Agosto2015

282. Numerical calculations of the plasmonic response of nested nano-particles, H. Batiz-G, Cecilia Noguez, R. Dıaz-HR, XXIV InternationalMaterials Research Congress 16-20 Agosto 2015

281. SIZE DEPENDCE OF ADSORPTION PROPERTIES OF METHYLTHIO ONSILVER NANOPARTICLES, David Becerril, Cecilia Noguez, XXIV In-ternational Materials Research Congress 16-20 Agosto 2015

280. Design and challenges of a STM/AFM set-up in UHV and low tem-perature, C. J. Villagomez, G. Pirruccio, Cecilia Noguez, XXIV IMRS,Cancun, Mexico, August 15-21, 2015.

279. Understanding optical activity in ligand-protected noble metal na-noparticles: intrinsic and geometric chirality, Francisco Hidalgo,Cecilia Noguez, 11th International Conference on Optics of Surfa-ces and Interfaces (OSI-11), June 28 ? July 3, 2015 in Austin, Texas,USA

278. Plasmonic response of nested nanoparticles with arbitrary geo-metry, R. Esquivel-Sirvent, Cecilia Noguez, Rafael D.H. Rojas, 11thInternational Conference on Optics of Surfaces and Interfaces(OSI-11), June 28–July 3, 2015 in Austin, Texas, USA

277. Adsorption of Methyl Thiol on Silver Nanoclusters: Size Dependen-ce, D. Becerril, Cecilia Noguez, 8th. Photodynamics and RelatedAspect meeting, Oaxaca, octubre 2014

276. Handedness Assigment of Semiconductor Single-Walled CarbonNanotubes, Cecilia Noguez, MRS New diamond and new carbon,Chicago, Il, mayo 2014

275. Adsorption energy of methyl thiol on silver nanoclusters: size de-pendence, D. Becerril, F. Hidalgo, Cecilia Noguez, XXII Interna-tional Materials Research Congress, 11-15 Agosto 2013, Cancun,Mexico

274. On the Absolute Con�guration of Semiconductor Single-WalledCarbon Nanotubes Cecilia Noguez, Ariadna Sanchez-Castillo, 14thInternational Conference of Chiroptical Spectroscopy, VanderbiltUniversity, Nashville, TN, USA, June 9-13, 2013

273. Temperature and Shape Dependent Optical Properties of Gold Na-noparticles, Ana L. Gonzalez, Cecilia Noguez, A. S. Barnard, V In-ternational Conference on Surfaces, Materials and Vacuum 2012,Mexico, Septiembre de 2012.

272. Optical activity and its relationship with adsorption site and nano-particle size of Agx-SCH3, Hidalgo, F.; Cecilia Noguez, EpiOptics12-School, Italia, Julio de 2012.

271. Optical activity in the Ag55-SCH3 compound, Hidalgo, F.; Ceci-lia Noguez, Pan-American Advanced Studies Institute Computatio-nal Material Science for Energy Generation and Conversion, Chile,Enero de 2012.

270. Determination of the absolute handedness in semiconductor car-bon nanotubes, Ariadna Sanchez-Castillo, Cecilia Noguez, Opticsof Surfaces and Interfaces 9, Septiembre, 2011

269. Color Catalogue of Gold Nanoparticles as a Function of Size andTemperature, Ana L. Gonzalez, Cecilia Noguez, Amanda Banard,Optics of Surfaces and Interfaces 9, Septiembre, 2011

268. Surface Plasmon Resonance in Single Metal Nanoparticles and 1D-Nanostructure Arrays for the Control of Enhanced Spectroscopies,C. E. Roman-Velazquez, Cecilia Noguez, Nanostructured Materialand Nanotechnology Simposium 1, of the XIX International Mate-rials Research Congress, Agosto, 2010.

267. On the origin of optical activity in chiral nanostructures, Ceci-lia Noguez, A. Sanchez-Castillo, IX Brazilian MRS Meeting 2010,Octubre, 2010.

266. Estudio de los Plasmones de Super�cie de Nanoshells Multiples,C. E. Roman-Velazquez y Cecilia Noguez, LII Congreso Nacionalde Fısica, Acapulco Gro., octubre 26-30 2009.

265. Surface Enhanced Raman Scattering (SERS) on a metallic wedge,Alı M. Angulo Martınez y Cecilia Noguez, 4th CANADA-AMERICA-MEXICO Graduate Student Physics Conference, Acapulco Gro., Oc-tober 22 - 24, 2009

264. Circular dichroism of passivated gold nanoclusters, A. Sanchez-Castillo, Cecilia Noguez, Symposium Protected Metallic Clusters,Quantum Wells and Metal-nanocrystal Molecules, American Che-mical Society 238th National Meeting 16–20 August, 2009, Wa-shington DC EU.

263. Chirality, optical activity, and enantiospeci�c adsorption in goldclusters, I. E. Santizo, F. Hidalgo-Moreno, L. A. Perez, Cecilia No-guez, I L. Garzon, XIV International Symposium on Small Particlesand Inorganic Clusters, Valladolid, Spain September 15-19, 2008.

262. Ab initio Calculations of the Circular Dichroism in Chiral Fullerenesand Bare and Passivated gold nanoclusters, F. Hidalgo, A. Sanchez-Castillo, Ignacio L. Garzon, Cecilia Noguez,EPIOPTICS-10 International School of Solid State Physics, Erice -Sicily, 20 - 27 June 2008.

261. Optical circular dichroism of bare and passivated Au chiral clustersCecilia Noguez, A. Sanchez-Castillo, F. Hidalgo, Ignacio L. Garzon,American Chemical Society, March Meeting, Chicago (2007).

260. First Principle Calculation of Circular Dichroism in Carbon Nano-tubles, A. Sanchez-Castillo, Cecilia Noguez, Chirality 2007, SanDiego California, 8 –11 de Julio.

259. Optical circular dichroism of bare and passivated Au nanoclusters,A. Sanchez-Castillo, F. J. Hidalgo, I.L. Garzon, and Cecilia Noguez,Internationa Conference “Chirality at the Nanoscal”, Sitges, Barce-lona 17th - 21st September 2007.

258. Interacting surface plasmons and the role of geometry on disper-sive forces, Cecilia Noguez, Carlos Roman-Velzquez, DispersionForces and Nano-Electro-Mechanical Systems, Lorentz Center, Lei-den Holanda, Dic. 9 – 15 (2006).

257. Interacting surface plasmons between macroscopic bodies: geo-metrical e�ects on dispersive forces, Cecilia Noguez, CarlosRoman-Velzquez, ”Seventh Workshop on Quantum Field Theoryunder the In�uence of External Conditions”, IEEC, CSIC and Uni-versity of Barcelona Barcelona, Catalonia, Spain, September 5-9,2005

256. Optical properties of isolated and supported metal nanoparticles,Cecilia Noguez, Paci�chem 2005, Meeting, Honolulu, Hawaii.

255. Optical properties of chiral nanostructures, Cecilia Noguez,Roman-Velazquez Carlos E., Garzon Ignacio L. Annual APS MarchMeeting 2004, March 22 – 26, 2004, Montreal, Quebec, Canada.


254. Optical properties of chiral nanotubes, Cecilia Noguez, Roman-Velazquez Carlos E., Sanchez Ariadna, Meza Montes Lilia, AnnualAPS March Meeting 2004, March 22 – 26, 2004, Montreal, Quebec,Canada.

253. Calculo de espectros de dicroismo circular de nanotubos quiralesAriadna Sanchez-Castillo, C. E. Roman-Velazquez, Cecilia Noguez,L. Meza-Montes VI Taller Nacional de Estudiantes de Posgrado enFısica y Ciencia de Materiales, Puebla 2004

252. Estudio teorico de nanotubos de carbono por medio de dicrois-mo circular Ariadna Sanchez Castillo, Carlos E. Roman Velazquez,Cecilia Noguez, y L. Meza Montes IX Encuentro Regional de Inves-tigacion y Ensenanza de la Fısica, Puebla, Junio 2004.

251. Propiedades opticas de nanoestructuras quirales, Cecilia Noguez,Congreso Interno Anual, Instituto de Fisica, UNAM, Mexico D.F. 11– 13 de mayo 2004.

250. Circular dichroism spectra of chiral gold nanoclusters, I.L. Gar-zon, C.E. Roman-Velazquez, Cecilia Noguez, March Meeting of theAmerican Physical Society Austin, EUA Marzo 3-7, 2003.

249. Chirality and circular dichroism spectra of gold nanoclusters, I.L.Garzon, C.E. Roman-Velazquez, Cecilia Noguez, 225th NationalMeeting of the American Chemical Society New Orleans, EUA Mar-zo 23-27, 2003.

248. Optical Properties of the cleavage InAs(110) surface X. Lopez-Lozano, Cecilia Noguez, L. Meza-Montes Optics of Surfaces andInterfaces V, Leon Guanajuato, Mexico 26 – 30, 2003.

247. High-Multipolar e�ects on dispersive forces between a nanopar-ticle and a surface Cecilia Noguez, C.E. Roman-Velazquez, C. Vi-llarreal, and R. Esquivel-Sirvent Optics of Surfaces and InterfacesV, Leon Guanajuato, Mexico 26 – 30, 2003.

246. Spectral representation of the Casimir force between a sphereand a substrate, Cecilia Noguez, C.E. Roman-Velazquez, C. Vi-llarreal and R. Esquivel- Sirvent 8th International Conference onSqueezed States and Uncertainty Relations ICSSUR’2003, Puebla,Mexico, June 9-13, 2003.

245. Optical Characterization of Metal Nanparticles with Arbitrary Sha-pes Cecilia Noguez, Ivan O. Sosa, Ruben G. Barrera X InternationalCongress of Composite Engineering: Nanocomposites (ICCE X) NewOrleans July 20-26, 2003.

244. Circular dichroism simulated spectra of chiral gold nanoclusters:A dipole approximation, Cecilia Noguez, C.E. Roman-Velazquez,I.L. Garzon XII International Materials Research Congress, Cancun17 – 22, 2003.

243. Spectral representation of the Casimir Force Between a Sphere anda Substrate C.E. Roman-Velazquez, Cecilia Noguez, C. Villarrealand R. Esquivel-Sirvent, Sixth Workshop on Quantum Field Theoryunder the In�uence of External Conditions, Norman Oklahoma, 15– 19, 2003

242. Fuerzas de casimir de una nanopartıcula en un substrato CeciliaNoguez, C. Roman Velazquez, C. Villarreal y R. Esquivel-Sirvent XLVCongreso Nacional de Fısica, Leon Gto., octubre 2002.

241. Propiedades electronicas de super�cies semiconductoras idealesX. Lopez Lozano, Cecilia Noguez, y L. Meza Montes V Taller deEstudiantes de Posgrado, Puebla 2002

240. Propiedades electronicas de las super�cies semiconductorasideales GaAs e InAs X. Lopez Lozano, Cecilia Noguez, y L. MezaMontes VIII Encuentro Regional de Investigacion y Ensenanza dela Fısica, Puebla 2002.

239. Electronic structure of the reconstructed surface InAs(110) X.Lopez-Lozano, Cecilia Noguez, y L. Meza-Montes Sociedad Mexi-cana de Ciencia de Super�cies y Vacıo A.C., XXII Congreso Nacio-nal, Octubre 2002.

238. Dicroismo circular optico de cumulos atomicos de oro C. Roman-Velazquez, Cecilia Noguez, y I.L. Garzon. XLV Congreso Nacionalde Fısica, Leon Gto., octubre 2002.

237. Casimir foreces in non-homogeneous planar and spherical sys-tems, Villarreal, C., Esquivel-Sirvent, R., Mochan, L. y Cecilia No-guez, ITAMP Workshop 2002: Casimir forces: recent developmentsin experiments and theory, Harvard Cambridge, noviembre 2002.

236. Di�erential re�ectance of a planar system of self-assembledquantum dots Ruben G. Barrera, Cecilia Noguez, Sergio E. UlloaMarch Meeting, Atlanta Georgia, 1999.

235. Electron Energy-Loss for anisotropic systems: Application to GaN(10øverline10) Raul Esquivel-Sirvent, Cecilia NoguezMarch Mee-ting, Atlanta Georgia, 1999.

234. Viscoelastic porperties of colloidal suspensions R. Esquivel-Sirvent, Cecilia Noguez, G. Ramirez-Santiago Materials ResearchSociety, Fall Meeting, Boston, Dic. 1999.

233. Electron Energy-Loss and Optical Spectra of GaN (1010) and (110)surfaces Cecilia Noguez, March Meeting, Atlanta Georgia, marzo1999.

232. Optical properties of non-polar GaN surfaces Cecilia Noguez, TheThird International Conference on Nitride Semiconductors Montpe-llier, Francia julio 5 – 9, 1999.

231. First-Principles calculations of optical properties of semiconductorsurfaces Cecilia Noguez, Materials Research Society, Fall Meeting,Boston, Dic. 1999.

230. Spectroscopic theoretical study of the atomic reconstruction ofGaN (1010) Cecilia Noguez, International Materials Research Con-gress, Symposium 9, August 30-September 4, Cancun, Mexico,1998.

229. Molecular Dynamics Simulations of Acoustic Properties of Colloi-dal Suspensions Cecilia Noguez, R. Esquivel-Sirvent, G. Ramırez-Santiago March Meeting, Los Angeles California, 1998.

228. Theory of electron energy loss for anisotropic systems: Applica-tion to GaN (1010) Cecilia Noguez, and R. Esquivel Sirvent Inter-national Materials Research Congress, Symposium 9, August 30-September 4, Cancun, Mexico, 1998.

227. Molecular Dynamic Simulations of acoustic properties of colloi-dal suspensions G. Ramırez-Santiago, R. Esquivel-Sirvent, CeciliaNoguez, MRS Fall 97 Meeting, Boston Mass. 1-5 diciembre, 1997.

226. Optical signature of the GaN(1010) surface Cecilia Noguez, R.Esquivel-Sirvent, S.E. Ulloa and D.A. Drabold, March Meeting, Kan-sas City, 17-21 de marzo 1997.

225. Propiedades opticas de la super�cie de nitruro de galio (100)Heriberto Hernandez Cocoletzi, Cecilia Noguez, R. Esquivel SirventCongreso Nacional de Fısica, Monterrey, octubre 1997.

224. Theoretical and experimental optical spectroscopy study of hy-drogen adsorption on Si(111)-7×7 Cecilia Noguez, M. Roy, C. Bei-tia, Y. Borensztein, A.I. Shkrebtii and R. Del Sole March Meeting(APS National meeting), St. Louis, Missouri, 1996.

223. Theoretical study of the optical properties of silicon clusters Ce-cilia Noguez, J. Song, S.E. Ulloa, D.A. Drabold and S.Y. Yang MarchMeeting (APS National meeting), St. Louis, Missouri, 1996.

222. Theoretical study of the optical properties of silicon clusters Ce-cilia Noguez, J. Song, S.E. Ulloa, D.A. Drabold and S.Y. Yang EPIOP-TICS 4, Erice- Sicily, Junio 9 al 14, 1996.

221. Structure and Optical Properties of Silicon Clusters, S.E. Ulloa, Ce-cilia Noguez, J. Song, and D.A. Drabold International Materials Re-search Congress: CanCun-96, Symposium 15: Computational Ma-terials Science: Theory and Simulation, Cancun 2-6 septiembre,1996.


220. The role of hydrogen as a precusor of the 7×7→ 1×1 phasetransition of Si(111), Cecilia Noguez, S.E. Ulloa y D.A. Drabold, MRSFall 96 Meeting, Boston Mass. 2-6 de diciembre 1996.

219. Acoustic response of laminated SiC ceramics R. Esquivel-Sirventand Cecilia NoguezMarch Meeting (APS National meeting), St.Louis, Missouri, 1996.

218. Structural, electronic and optical properties of hydrogenatedSi(111)-7×7 surfaces, Dominic Alfonso, Cecilia Noguez, D. A. Dra-bold y S. E. Ulloa, March Meeting (APS National meeting), San JoseCalifornia, 1995.

217. Elastic wave propagation in quasi-periodic superlattices, H. Gue-rrero, R. Esquivel-Sirvent, Cecilia Noguez y S. E. Ulloa, March Mee-ting (APS National meeting), San Jose California, 1995.

216. Optical spectroscopy study of hydrogenation of the Si(111)-7×7surface, M. Roy, Y. Borensztein, A. Shkrebtii, Cecilia Noguez y R.Del Sole, ICFSI Conference, Princeton, junio 1995.

215. Multipolar E�ects on a Linear Chain of Disorder Polarizable Sp-heres, Cecilia Noguez, Ruben G. Barrera y Francisco Claro, MarchMeeting (APS National meeting), San Jose California, 1995.

214. Theoretical studies of the optical properties of diamond surfaces,Cecilia Noguez, Dominic Alfonso, S. E. Ulloa y D. A. Drabold, MarchMeeting (APS National meeting), San Jose California, 1995.

213. Elastic wave propagation in randomly disordered layered me-dia, R. Esquivel-Sirvent y Cecilia Noguez, 127th Meeting of theAcoustical Society of America, Boston Mass., junio 1994.

212. Numerical simulation for the e�ective susceptibility of a one-dimensional disordered chain of polarizable spheres, Cecilia No-guezy Ruben G. Barrera, March Meeting, Seattle, 1993.

211. Approach to the calculation of the Si(111)-7×7 optical properties,Cecilia Noguez, A.I. Shkrebtii y R. Del Sole, 18th annual meeting,advances in surface and interface physics, Modena, Italy, diciem-bre 1993.

210. Funcion dielectrica efectiva de una cadena lineal de esferas po-larizables, Cecilia Noguez, Ruben G. Barrera y Pedro Villasenor-Gonzalez, XXXV Congreso Nacional de Fısica, Puebla, Mexico, oc-tubre 1992.

209. E�ective dielectric response of 1D composites, Cecilia Noguez, yRuben G. Barrera, 38th Scottish Summer School of Physics: Physicsof Nanostructures, St. Andrews Escocia, julio 1991.

208. The dielectric response of a chain of disordered polarizable sp-heres: numerical simulation and theory, Cecilia Noguez, Pedro Vi-llasenor-Gonzalez y Ruben G. Barrera, Material Research SocietyFall Meeting, Boston, diciembre 1991.

207. La respuesta dielectrica efectiva de un compuesto: una nuevaaproximacion diagramatica., Cecilia Noguez y Ruben G. Barre-ra, XXXIII Congreso Nacional de Fısica. Ensenada Baja California,Mexico, octubre 1990.

206. Understanding optical activity in organometallic nanoparticles, F.Hidalgo, Cecilia Noguez, 14th International Conference of Chiropti-cal Spectroscopy; Vanderbilt University; Nashville, Tennessee, USA;9-13 junio 2013

205. Map of the Structural and Optical Properties of Gold Nanoparticlesat Thermal Equilibrium, Gonzalez, A.L.; Cecilia Noguez; Barnard,A.S., Gordon Conference “Plasmonics: Light-Matter Interaction atthe Nanoscale”, Estados Unidos de America, Junio de 2012.

204. Optical Activity in the Ag55SCH3 Compound: Relationship betweenCircular Dichroism spectra and adsorption site, Francisco Hidal-go, Cecilia Noguez, XXXVII CONGRESO DE QUIMICOS TEORICOSDE EXPRESION LATINA (QUITEL 2011), Diciembre, 2011

203. Catalogo de Colores de Nanopartıculas de Oro en funcion del ta-mano y temperatura, Ana L. Gonzalez, Amanda Banard, CeciliaNoguez, Poster, 1er Coloquio Fisico Nano 2011, Octubre, 2011

202. The role of ligands in metallic gold clusters, Ariadna Sanchez Cas-tillo, Cecilia Noguez, Optics of Surfaces and Interfaces 9, Sep-tiembre, 2011

201. Electromagnetic Field Enhancement at the Edge of Metal nanos-tructures, Ali M Angulo, Cecilia Noguez, Optics of Surfaces andInterfaces 9, Septiembre, 2011

200. Optical Activity in the Ag55SCH3 Compound: Relationship betweenCircular Dichroism spectra and adsorption site, Francisco Hidalgo,Cecilia Noguez, Optics of Surfaces and Interfaces 9, Septiembre,2011

199. Surface Enhanced Raman Scattering at the edge of metallic Na-noparticles, Angulo-Martinez, A, Roman-Velazquez, C, Cecilia No-guez, XV International Symposium on Small Clusters and InorganicClusters, Septiembre, 2010.

198. On the Origin of the Optical Activity Displayed by Chiral- Ligand-Protected Metallic Nanoclusters, Sanchez-Castillo, A, I.L. Garzon,Cecilia Noguez, XV International Symposium on Small Clusters andInorganic Clusters, Septiembre, 2010.

197. Optical activity in single-wall carbon nanotubes, Sanchez-Castillo,A, Cecilia Noguez, XV International Symposium on Small Clustersand Inorganic Clusters, Septiembre, 2010.

196. Plasmonic Metal Nanoparticles, Cecilia Noguez, Gonzalez, A.L, IXBrazilian MRS Meeting 2010, Octubre, 2010.

195. On the origin of optical activity of ligand-protected metal nanocls-ters, A. Sanchez-Castillo, Cecilia Noguez, Gordon Research Con-ference on Noble Metal Nanoparticlesat Mount Holyoke College inSouth Hadley, MA, June 2010

194. Estudio del engrandecimiento extraordinario del campo electro-magnetico en la vecindad de nanopartıculas metalicas y su im-portancia en el efecto SERS, Alı M. Angulo Martınez y CeciliaNoguez, LII Congreso Nacional de Fısica, Acapulco Gro., octubre2009.

193. Electronic Circular Dichroism of Single-Wall Carbon Nanotubes, A.Sanchez-Castillo, Cecilia Noguez, XIV International Symposium onSmall Particles and Inorganic Clusters, Valladolid, Spain September15-19, 2008.

192. Optical circular dichroism of bare and passivated Au nanoclusters,F. Hidalgo-Moreno, I. L. Garzon, Cecilia Noguez, XIV InternationalSymposium on Small Particles and Inorganic Clusters, Valladolid,Spain, September 15-19, 2008.

191. Circular Dichroism of Gold Nanoclusters, F. J. Hidalgo and CeciliaNoguez, PASI2007: Panamerican Advanced Study Institute, Electro-nic States and Excitations on Nanostructures, Zacatecas, Mexico,june 11 to 22, 2007.

190. First Principle calculations of electronic and optical properties of�ve-fold Ag clusters, Alı M. Angulo and Cecilia Noguez, PASI2007:Panamerican Advanced Study Institute, Electronic States and Exci-tations on Nanostructures, Zacatecas, Mexico, june 11 to 22, 2007.

189. First Principles Calculations of Circular Dichroism in Carbon Nano-tubes, A. Sanchez-Castillo and Cecilia Noguez, PASI2007: Paname-rican Advanced Study Institute, Electronic States and Excitations onNanostructures, Zacatecas, Mexico, june 11 to 22, 2007.

188. Light extinction of regular shape metal nanoparticles, A. L.Gonzalez and Cecilia Noguez, PASI2007: Panamerican AdvancedStudy Institute, Electronic States and Excitations on Nanostructures,Zacatecas, Mexico, june 11 to 22, 2007.

187. Surface Plasmon Resonances of Metal Polyhedral Nanoparticles,A. L. Gonzalez y Cecilia Noguez, Nanotech 2006, May 7-11, 2006,in Boston, Massachusetts, U.S.A.

186. Dinamica Molecular de clusters de plata, Alı M. Angulo, CeciliaNoguez, Congreso Nacional de Fisica, San Luis Potosı, Mexico, oc-tubre 2006.


185. Tuning surface plasmon on metal nanoparticles, Cecilia Noguez,Gordon Research Conference on Plasmonics, Keene, New Hamps-hire, July 23 – 28 (2006).

184. Dispersive forces from interacting surface plasmon between a sp-heroid and a plane: the role of geometry, Carlos Roman-Velzquez,Cecilia Noguez, ”Seventh Workshop on Quantum Field Theory un-der the In�uence of External Conditions”, IEEC, CSIC and Universityof Barcelona, Barcelona, Catalonia, Spain, September 5-9, 2005

183. Dependencia geometrica de las resonancias de plasmon de su-per�cie para nanopartculas de plata de formas poliedrales, A. L.Gonzalez, y Cecilia Noguez, XLVIII Congreso Nacional de Fısicadel 17 al 21 de octubre del 2005 en Guadalajara, Jal.

182. Circular Dichroism Spectra of Chiral Single-Wall Carbon Nanotu-bes, A. Sanchez-Castillo, Carlos E. Roman-Velazquez, Cecilia No-guez, L. Meza-Montes, International Conference on the Scienceand Application of Nanotubes July 19–24, 2004, San Luis PotosıMexico.

181. Propiedades opticas de nanopartıculas metalicas esfericas, A. L.Gonzalez, G. P. Ortız, Cecilia Noguez, XLVII Congreso Nacional deFısica del 25 al 29 de octubre del 2004, Hermosillo, Son.

180. Anisotropic electronic and optical properties of In nanowires onSi(111) X. Lopez-Lozano, F. Bechstedt, J. Furtmueller, A. A. Stekolni-kov, Cecilia Noguez, and L. Meza- Montes VIII European Confe-rence on Surface Crystallography and Dynamics, Segovia Espana,Julio 2004.

179. Electronic properties of the cleavage InAs(110) surface X. Lopez-Lozano, Cecilia Noguez, L. Meza-Montes Third San Luis Sym-posium on Surfaces, Interfaces and Catalysis Merida, Venezuela,marzo 31 a abril 4, 2003.

178. Electronic and optical properties of InAs(110) X. Lopez-Lozano,Cecilia Noguez, L. Meza-Montes Pan American Advanced StudiesInstitute on Physics at the Nanometer Scale, San Carlos de Barilo-che, Argentina, 8-18 June, 2003.

177. Optical Properties of Metal Nanoparticles with Arbitrary Shapes,Ivan O. Sosa, Cecilia Noguez, and Ruben G. Barrera Pan AmericanAdvanced Studies Institute on Physics at the Nanometer Scale, SanCarlos de Bariloche, Argentina, 8-18 June, 2003.

176. Dispersive forces at the nanometer scale, Cecilia Noguez, C.E.Roman-Velazquez XII International Materials Research Congress,Cancun 17 – 22, 2003.

175. Circular Dichroism of gold nanoclusters C. Roman-Velazquez, Ce-cilia Noguez, y I.L. Garzon. International Symposium of Small Par-ticles and Inorganic Clusters XI, Strasburgo Francia, Septiembre2002.

174. Estructura electronica de la super�cie InAs(110) reconstruida X.Lopez-Lozano, Cecilia Noguez, y L. Meza-Montes XLV CongresoNacional de Fısica, Leon Gto., octubre 2002.

173. Casimir forces between a nanoparticle and a substrate C. RomanVelazquez, Cecilia Noguez, C. Villarreal y R. Esquivel-Sirvent Ma-terials Research Society, Fall Meeting, Boston, Diciembre. 2002.

172. Estructura electronica de la super�cie relajada InAs(110) X. LopezLozano, Cecilia Noguez, y L. Meza Montes XVI Simposio Lati-noamericano de Fısica del Estado Solido, Merida, Venezuela, Dic.2002.

171. Light scattering by suspended nanoparticles Ivan O. Sosa, Ceci-lia Noguez, R.G. Barrera Materials Research Society, Fall Meeting,Boston, Nov. 2001.

170. Light scattering by supported and suspended nanoparticles IvanO. Sosa, Cecilia Noguez, R.G. Barrera PASI Nanoscience and tech-nology at the nanometer scale, Costa Rica, Jun. 2001

169. Casimir Forces between thermally activated nanocomposites RaulEsquivel-Sirvent, C. Villarreal, Cecilia NoguezMaterials ResearchSociety, Fall Meeting, Boston, Nov. 2001.

168. Spectral representation of the optical response of a spheroidalparticle on a substrate Carlos E. Roman-Velazquez, Cecilia No-guez, Ruben G. Barrera Workshop on Surface and Interface Optics,1999 Sainte Maxime, France, 4 – 9 May.

167. Theory of electron energy loss spectroscopy for anisotropic sys-tems: application to GaN surfaces Cecilia Noguez, Workshop onSurface and Interface Optics, 1999, Sainte Maxime, France, 4 – 9May.

166. Optical characterization of a spheroidal nanoparticle on a subs-trate C.E. Roman-Velazquez, Cecilia Noguez, R.G. Barrera MaterialsResearch Society, Fall Meeting, Boston, Dic. 1999.

165. Size dependence of the optical properties of silicon clusters Ce-cilia Noguez, J. Song, S.E. Ulloa, D.A. Drabold and S.Y. Yang ThirdInternational Symposium of Nanostructures and Mesoscopic sys-tems, Santa Fe, New Mexico, mayo 1996.

164. Optical signature of the GaN(1010) surface Cecilia Noguez, R.Esquivel-Sirvent, D.R. Alfonso, S.E. Ulloa and D.A. Drabold, MRSFall 96 Meeting, Boston Mass. 2-6 de diciembre 1996.

163. Acoustic signature of defects of SiC/porous SiC laminated ceramicsR. Esquivel-Sirvent, Cecilia Noguez, MRS Fall 96 Meeting, BostonMass. 2-6 diciembre, 1996.

162. Microscopic theory of the optical properties of Si(111)-7×7, CeciliaNoguez, A.I. Shkrebtii y R. Del Sole, 22nd International Conferenceon the Physics of Semiconductors, Vancouver, Canada, agosto 14-19, 1994.

161. The disorder e�ects on the e�ective dielectric response of a linearchain of polarizable spheres, Cecilia Noguezy Ruben G. Barrera,Third International Conference on Electrical Transport and OpticalProperties of Inhomogeneous Media (ETOPIM3), Guanajuato Mexi-co, agosto 1993.

160. Estudio experimental de las perturbaciones en una pelıcula del-gada descendente, Cecilia Noguez y Ramon Peralta-Fabi, XXXIICongreso Nacional de Fısica., Leon Guanajuato, Mexico, octubre1989.

159. Nueva suma diagramatica para la respuesta dielectrica efectiva,Cecilia Noguez y Ruben G. Barrera, V Escuela Mexicana de FısicaEstadıstica, Oaxtepec Morelos, Mexico, agosto 1989.

Ana Cecilia Noguez Garrido

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