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Materials science / Energy conversion / Semiconductor devices / Solar cells / Nanoelectronics / P–n junction / Depletion region / Polycrystalline silicon / Nanorod / Nanomaterials / Technology / Physics


RADIAL PN JUNCTION NANOROD SOLAR CELLS: DEVICE PHYSICS PRINCIPLES AND ROUTES TO FABRICATION IN SILICON Brendan M. Kayes, Christine E. Richardson, Nathan S. Lewis, Harry A. Atwater California Institute of Technology, Pasa
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Document Date: 2006-10-31 04:02:22

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File Size: 630,30 KB

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City

Pasadena / New York / /

Company

BP / Academic Press Ltd. / /

Facility

Harry A. Atwater California Institute of Technology / /

IndustryTerm

carrier gas / metal / minority carrier lifetime / carrier extraction / chemical reaction products / silicon technology / large minority-carrier diffusion length / analytic solutions / heterojunction polymer photovoltaic devices / carrier transport / potential solution / high energy conversion efficiency / metal catalyst particles / carrier concentration gradient / minority carrier diffusion / carrier collection / metal nanowire arrays / Metal seed particles / nanorod solar cell applications / carrier motion / photovoltaic applications / semiconductor drift/diffusion carrier transport equations / /

Organization

California Institute of Technology / Stanford / /

Person

Christine E. Richardson / Harry A. Atwater / Nathan S. Lewis / Crystal Growth / /

Position

Representative / /

ProvinceOrState

Ohio / California / New York / /

Technology

semiconductor / silicon technology / Semiconductor Devices / recombination / CVD / Chemical Vapor Deposition / /

URL

http /

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