Photovoltaics from Any Semiconductor
http://newscenter.lbl.gov/feature-stories/2012/07/26/photovoltaics-from-any-semiconductor/[font face=Serif][font size=5]Photovoltaics from Any Semiconductor[/font]
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Berkeley Lab Technology Could Open Door to More Widespread Solar Energy Devices[/font]
July 26, 2012
[font size=3]A technology that would enable low-cost, high efficiency solar cells to be made from virtually any semiconductor material has been developed by researchers with the U.S. Department of Energy (DOE)s Lawrence Berkeley National Laboratory (Berkeley Lab) and the University of California (UC) Berkeley. This technology opens the door to the use of plentiful, relatively inexpensive semiconductors, such as the promising metal oxides, sulfides and phosphides, that have been considered unsuitable for solar cells because it is so difficult to tailor their properties by chemical means.
[/font]The SFPV technology was tested for two top electrode architectures: (A) the top electrode is shaped into narrow fingers; (B) top electrode is uniformly ultrathin.
[font size=3]Its time we put bad materials to good use, says physicist Alex Zettl, who led this research along with colleague Feng Wang. Our technology allows us to sidestep the difficulty in chemically tailoring many earth abundant, non-toxic semiconductors and instead tailor these materials simply by applying an electric field.
Zettl, who holds joint appointments with Berkeley Labs Materials Sciences Division and UC Berkeleys Physics Department where he directs the Center of Integrated Nanomechanical Systems (COINS), is the corresponding author of a paper describing this work in the journal Nano Letters. The paper is titled Screening-Engineered Field-Effect Solar Cells. Co-authoring it were William Regan, Steven Byrnes, Will Gannett, Onur Ergen, Oscar Vazquez-Mena and Feng Wang.
Solar technologies today face a cost-to-efficiency trade-off that has slowed widespread implementation, Zettl says. Our technology reduces the cost and complexity of fabricating solar cells and thereby provides what could be an important cost-effective and environmentally friendly alternative that would accelerate the usage of solar energy.
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http://dx.doi.org/10.1021/nl3020022