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Design & Fabrication of a High-Voltage Photovoltaic Device
Jennifer FelderNorth Carolina State University
Project Advisor: Chris Kenney
Outline
• Brief Review• Motivation• Unique Features of Design• (Mask) Design• Simulation• Fabrication• Conclusion
A Brief Review
• Photoelectric Effect• Photovoltaic (PV) Effect/Devices
Image courtesy of: http://amazingdata.com/mediadata8/Image/amazing_fun_science_technology_20090729124730244.jpg
Project Motivation
• High-Voltage PV• EXO Experiment Power Source• Unique Features of Device– Wavelength– Temperature– Float-zone Si wafers• Impurities• Cost
Wavelength Matching• Band gap & efficiency• Band gap of Si = 1.12 eV• λ=hc/E 1.12 eV ~ 1100 nm• Solar cells?
Temperature & Efficiency
• η drops 0.1% per °C above 25°C• Ex: If it were 105°F (40.5°C) -1.55%• Liquid Xe• Solar cells?
100 μm
Individual Cell Designs (Mask)
Preliminary Calculations
1. Known Parameters
2. Modeling Equations
3. Calculated Parameters
Mask Design: PV Device• Series Connections• Various Voltages (50-2000 V)• From Calculations:
3 Basic Cell Designs
Simulated
SOI Layer
P Diffusion
N Diffusion
Optimized Cell Design• N-type
diffusion area
• Constraints on area size
Built-in Potential• High built-in potential fewer number cells• Φj ≈ 0.97 V (± 0.01 V between designs)• Not a deciding factor
SRH Recombination
• Low recombination high photovoltage generation
Other Simulation Results
Fabrication
• Stanford Nanofabrication Facility (SNF)• Wet oxidation process– Remove organic materials– Remove metal ions– Oxidation
• Other steps to be finished in future work…
Conclusions
• Feasibility/Proof of Concept Test• Significant Impact– Experiments (EXO)• Noise
– SLAC– Extended to other PV/solar cell technology, many
others!
Acknowledgments
• Chris Kenney• Jasmine Hasi• Astrid Tomada• Julie Segal• DOE• SLAC & SNF Staff
Questions, Comments, Concerns?
Feel free to e-mail me at jkfelder@ncsu.edu
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