Semiconductor Alloy Nanowires with Spatially Graded Compositions for Full-Spectrum Solar Cell Applications

A. L. Pan; E.S.P. Leong; M. Sun; C.Z. Ning; W.C. Zhou; B. S. Zou

doi:10.1364/SOLAR.2008.STuC6

Solar Energy: New Materials and Nanostructured Devices for High Efficiency
(Optica Publishing Group, 2008),
paper STuC6
•https://doi.org/10.1364/SOLAR.2008.STuC6

Semiconductor Alloy Nanowires with Spatially Graded Compositions for Full-Spectrum Solar Cell Applications

A. L. Pan, E.S.P. Leong, M. Sun, C.Z. Ning, W.C. Zhou, and B. S. Zou

Solar Energy: New Materials and Nanostructured Devices for High Efficiency 2008

Stanford, California United States
24–25 June 2008
ISBN:

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Poster Session I (STuC)

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A. L. Pan, E. S. P. Leong, M. Sun, C. Z. Ning, W. C. Zhou, and B. S. Zou, "Semiconductor Alloy Nanowires with Spatially Graded Compositions for Full-Spectrum Solar Cell Applications," in Solar Energy: New Materials and Nanostructured Devices for High Efficiency, (Optica Publishing Group, 2008), paper STuC6.

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Abstract

We demonstrate CdS_xSe_1−x nanowire growth with x changing from 0 to 1 continuously within 1-cm substrate corresponding to 200-nm wavelength variation on a single substrate, providing novel full-spectrum materials for high-efficiency solar cell applications.

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