BP / Oxford University Press / Synopsys / John Wiley & Sons / /
Country
United States / /
Facility
H. A. Atwater California Institute of Technology / /
IndustryTerm
long-diode device / long diode device / photovoltaic energy conversion efficiency / metal layer thickness / actual devices / 3D radial junction wire device / energy conversion efficiency / contact metal / chemical vapor deposition / minority carrier diffusion length / imaging / photovoltaic applications / given minority carrier lifetime / carrier type / present device / short-diode device / photovoltaic energy conversion / carrier lifetimes / photovoltaic devices / software suite / singlenanowire solar cell device / carrier transport / minority carrier diffusion / solar cell devices / minority carrier diffusion lengths / wire devices / solar energy conversion efficiency / photovoltaic device / wire device / nanowire device / roll-to-roll sheet processing / 2dimensional carrier transport / catalyst metal incorporation / majority carrier currents / /
Organization
California Institute of Technology / Department of Energy / Center for Science and Engineering of Materials / African Union / NSF Materials Research Science and Engineering Center / Oxford University / office of Basic Energy Sciences / /
Person
Carol M. Garland / April Neidholdt / Evan Neidholdt / N. S. Lewis / Ryan Briggs / Silver Spring / D. B. Turner-Evans / M. C. Putnam / Nat Nano / Melissa Archer / Jim Maiolo / Bruce Brunschwig / Domenico Pacifici / Jessica Roberts / Katherine Plass / M. D. Kelzenberg / H. A. Atwater / Stephen Maldonado / Small / David Knapp / B. M. Kayes / M. A. Filler / Ali Ghaffari / Luke Sweatlock / Josh Spurgeon / /