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Exploring Schottky Junction Solar Cells

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Presentation on theme: "Exploring Schottky Junction Solar Cells"— Presentation transcript:

1 Exploring Schottky Junction Solar Cells
Ryan Powers PSU REU 2013

2 Overview Introduction to solar energy Basic solar cell design
Schottky junction Purpose Materials and methods Results Conclusion Future research

3 Why Solar? Clean Abundant Dependable Sustainable No carbon footprint
Most available renewable energy source Dependable Lasts 20+ years, little maintenance Sustainable Can provide energy indefinitely

4 Solar Cells Basic principle Inefficiencies Absorption of photons
Excitation of electrons Current flow Inefficiencies Reflected light Si bandgap Near-IR: too weak UV: excess heat

5 Schottky Junction Metal-Semiconductor interface
Metallic nanostructures Simpler, thinner design Lower resistance Greater absorption spectrum Surface plasmons

6 Purpose Proof of concept Cheaper, simpler solar cell
Driving down energy costs

7 Materials Gold Nanoparticles (AuNP)
Diameter 3-5nm Suspended in Hexane Used for inert properties Multi-walled Carbon Nanotubes (MWCNT) Suspended in Ethanol Used for metallic properties

8 Deposition Atomizer spray gun Substrates used: Various concentrations
Evaporated Si on stainless steel 170µm P-type Si – highly doped 650µm P-type Si Various concentrations

9 Finished Product AuNP, MWCNT, Evap. Si
650µm , 170 µm (Al Coated), Stainless Steel

10 Analysis IV plots Fill Factor Efficiency

11 It’s a solar cell

12 Results

13 Data Au NP Solar Cell MWCNT Solar Cell Typical Cr-Si Fill Factor: 0.25
Max efficiency: 0.10% MWCNT Solar Cell Fill Factor: 0.26 Max efficiency: 0.25% Typical Cr-Si Fill Factor: 0.70 Efficiency: 10-20%

14 Conclusion Opportunity for technological advancement
Lower cost of production Increase solar popularity

15 Future Research Optimization Refined nanostructures
Si thickness / doping density Nanostructure concentration Refined nanostructures Gold nanorods Increased efficiency Improved deposition method Uniformity

16 Acknowledgments Dr. Raj Solanki Mitch Swan Prasanna Padaigi
Sánchez Nano Development Lab Wamser Solar Lab This material is based upon work supported by the National Science Foundation under Grant No

17 Questions?

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