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Abstract
Evolution of High Efficiency Silicon Solar Cell Design
Lecture 2 - 2014
Martin A. Green
University of New South Wales
Australian Centre for Advanced Photovoltaics
This Lecture - Outline - Lecture 2 - 2014
1. Enter the modern era
2. Principle I - "Dark/Light Superposition"
3. Improving "emitters"
4. Principle II - "Dark/Light" Reciprocity
5. Evolution of Si cell design I
6. "Light trapping"
7. Evolution of Si cell design II
8. Principle III - "PV/LED" Reciprocity
9. The future
-Questions
Last Lecture - Outline - Lecture 1 - 2014
1. Recent developments
2. Early PV history
3. The first pn-junctions
4. Conventional space cells
5. Key pointers pn junctions
6. Enter the modern era
-Questions
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| Brief Bio
Professor Martin A. Green, AM, FAA, FTSE, FIEEE, FRS
is the author of six books, twenty-one book chapters and over three hundred research papers in photovoltaics. He is currently the director of the Australian Centre for Advanced Photovoltaics funded by the Australian Renewable Energy Agency (ARENA).
Some of Professor Green's Awards:
*1982 Pawsey Medal (Australian Academy)
*1988 Award for Outstanding Achievement in Energy Research
*1990 IEEE Cherry Award
*1992 CSIRO External Medal
*1995 IEEE Ebers Award
*1999 Australia Prize
*2000 Gold Medal from the Spanish Engineering Academy
*2000 Medal of Engineering Excellence for Distinguished Achievement in the Service of Humanity from the World Engineering Federation (Hannover, 2000)
*2000 Millennium Award from the World Renewable Congress
*2002 Right Livelihood Award
*2003 Karl Böer Solar Energy Medal of Merit Award from the University of Delaware
*2006 Finalist, European Inventor of the Year (together with Stuart Wenham)
*2008 Winner, 2008 Scientist of the Year Award
*2009 Zayed Future Energy Prize finalist, recognized at the award ceremony for his ground breaking research in photovoltaic (PV) technology that will result in increased efficiencies, bringing solar energy closer to grid parity.
*2013 Foreign Member of the Royal Society (ForMemRS) of London
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