Maximizing Solar-to-Fuel Conversion Efficiency in Oxide Photoelectrochemical Cells Using Heat and Concentrated Sunlight Investigators William C. Chueh, Assistant Professor of Materials Science - Sunlight Solar Energy - Document - PDFSEARCH.IO - Document Search Engine

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	Maximizing Solar-to-Fuel Conversion Efficiency in Oxide Photoelectrochemical Cells Using Heat and Concentrated Sunlight Investigators William C. Chueh, Assistant Professor of Materials Science & Engineering Nick A. Melos Add to Reading List Document Date: 2014-09-22 12:17:38 Open Document File Size: 281,77 KB Share Result on Facebook City Strandwitz / Tilley / / Company Melosh N. A. / BiVO4 Heterojunction Films / Nanostructured r-Fe2O3 Films / Earth-Abundant Catalysts / Wireless Solar Water Splitting Using Silicon-Based Semiconductors / / Country United States / / / IndustryTerm low carrier mobility / oxide material systems / renewable solar energy / excess thermal energy resulting / photo-electrochemical device / chemical stability / minority carrier transport / intermittent solar energy / high carrier mobility / high energy densities / improved minority carrier diffusion length / activation energy / carrier mobility / energy / / Organization American Chemical Society / / Person William C. Chueh / Jarvi / Nocera / Nick A. Melosh / / Position absorber and mixed ionic and electronic conductor / T. D. / Associate Professor / Professor of Materials Science / / ProvinceOrState South Dakota / North Carolina / / PublishedMedium Solar Energy Materials and Solar Cells / Journal of the American Chemical Society / Nature Materials / / Technology radiation / laser / recombination / / SocialTag Hydrogen production Solar cells Photoelectrochemistry Photochemistry Photoelectrochemical cell Water splitting Solar energy Band gap High-temperature electrolysis Energy