Engineers at Oregon State University have determined that ethylene glycol, commonly used in antifreeze products, can be a low-cost solvent that functions well in a "continuous flow" reactor – an approach to making thin-film solar cells that is easily scaled up for mass production at industrial levels.
The research, just published in Material Letters, a professional journal, also concluded this approach will work with CZTS, or copper zinc tin sulfide, a compound of significant interest for solar cells due to its excellent optical properties and the fact these materials are cheap and environmentally benign.
"The global use of solar energy may be held back if the materials we use to produce solar cells are too expensive or require the use of toxic chemicals in production," said Greg Herman, an associate professor in the OSU School of Chemical, Biological and Environmental Engineering. "We need technologies that use abundant, inexpensive materials, preferably ones that can be mined in the U.S. This process offers that."
By contrast, many solar cells today are made with CIGS, or copper indium gallium diselenide. Indium is comparatively rare and costly, and mostly produced in China. Last year, the prices of indium and gallium used in CIGS solar cells were about 275 times higher than the zinc used in CZTS cells.
Please continue reading at: http://oregonstate.edu/ua/ncs/archives/2013/jul/antifreeze-cheap-materials-may-lead-low-cost-solar-energy
