Solar paint ppt
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Transcript of Solar paint ppt
![Page 1: Solar paint ppt](https://reader033.fdocument.pub/reader033/viewer/2022061511/55d0446dbb61eb48328b45cf/html5/thumbnails/1.jpg)
Solar Paint
Presented by-
DEEPAK SHARMA ROLL NO. 1213321071
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DEPARTMENT OF ELECTRICAL AND ELECTRONICS ENGINERING
NIET,GREATER NOIDA
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Topics to be covered Introduction Quantum dots Solar paint Graphs Photo electrochemical
performance Comparison Applications Challenges Conclusion
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Introduction Urgent need for new ways of generating electricity
Development of new technology
Low cost solar energy
Paint coatings or Flexible plastic sheets (PET)
Applied to building, vehicle and appliances
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Quantum dots Semiconductor whose excitons are confined in all three spatial
dimensions
Typically have dimensions measured in nanometers
Boosts the energy conversion efficiency
Types of quantum dot solar cells
a. ETA(Extremely thin absorber) cells
b. Sensitizers4
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Continued….
a) Can be linked together as molecules
b) Lattices
c) Attached to a polymer backbone
d) Incorporated into a polymer thin film 5
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How to prepare solar paint
Consists of Cds, CdSe and TiO2 particles
There are two methods
a. Physical mixing of TiO2 and CdS in a mixed solvent
b. Pseudo-SILAR(Sequential Ionic Layer Adsorption and Reaction) method
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A) Tert-butanol and water as solvent
B) CdS powder and TiO2 powder are slowly mixed into the solvent
C,D) CdS deposited on TiO2 after pseudo-SILAR process
E) Application of solar paint
F,H) Annealed films of solar paint
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Graphs
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Photo electrochemical performanceelectrode ratio method Jsc (mA/cm2) Voc (mV) η (%)
CdS/TiO2 1.5:1.0 Mix 2.26 600 0.71
CdS/ZnO 2.25:1.0 Mix 3.01 675 0.57
CdS/ZnO/TiO2 2.0:1.0:0.2 Mix 3.63 685 0.89
CdS/TiO2 1.0:3.5 SILAR 2.33 615 0.87
CdSe/TiO2 1.0:5.0 SILAR 2.12 608 0.83
CdS–TiO2/
CdSe–TiO2
1.0:1.5 SILAR, mix 3.1 585 1.08
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Comparison
Conventional solar cell Not flexible and heavy
Can not respond at low light levels
Provides power comparatively at higher cost
Cell made from solar paint Flexible and very thin
Can even respond at low light levels
Provides power at low cost
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Challenges
Improving the light to energy conversion rate
Applying paint directly on to the roofs of the building
Work still needs to be done to improve the conducting material
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Future Applications
Any cloth coated with paint could power a cell phone or other wireless devices.
Any vehicle coated with paint could convert energy into electricity to continually recharge the battery.
Industries can generate their own power just by coating paint on the building surface.
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Conclusion
The paint can be made cheaply and in large quantities. If the efficiency is improved somewhat it will make a real difference in
meeting energy needs in future
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