FDTD Solutions / BP / Lumerical Inc. / Synopsys Inc. / J. A. Wollam Co Inc. / WVASE32 Spectroscopic Ellipsometry Software / /
Country
United Kingdom / /
Facility
H. A. Atwater California Institute of Technology / /
IndustryTerm
wire array device / law absorption model / wire array photovoltaic device / photon energy / chemical vapor deposition / minority carrier diffusion length / photovoltaic applications / energy / media wavelength / photovoltaic energy conversion / short minority carrier collection path / semiconductor device / photovoltaic devices / software suite / carrier transport / presented device / abovebandgap solar energy / photovoltaic device / reported device / wire device / minority carrier / roll-to-roll sheet processing / /
Movie
Transparent / /
OperatingSystem
Ose / /
Organization
California Institute of Technology / Department of Energy / American Chemical Society / Center for Science and Engineering of Materials / NSF Materials Research Science and Engineering Center / office of Basic Energy Sciences / /
Person
April Neidholdt / K. E. Plass / Evan Neidholdt / N. Lewis / N. S. Lewis / D. B. Turner-Evans / M. C. Putnam / Michael Filler / Melissa Archer / Jim Maiolo / J. M. Spurgeon / Domenico Pacifici / Jessica Roberts / Nano Letters / Katherine Plass / M. D. Kelzenberg / Vivian Ferry / Jan Petykiewicz / Brendan Kayes / H. A. Atwater / B. S. Brunschwig / B. Brunschwig / Stephen Maldonado / Shannon Boettcher / Emily Warren / B. M. Kayes / M. A. Filler / Stanley Burgos / Luke Sweatlock / Josh Spurgeon / S. Maldonado / H. Atwater / / /
Position
electrical conductor / device physics model of Si / /
Product
A-2008 / /
ProvinceOrState
California / /
PublishedMedium
Journal of Applied Physics / Applied Physics Letters / Advanced Materials / Journal of the American Chemical Society / /