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Electrodeposition of crystalline silicon films from silicon dioxide for low-cost photovoltaic applications

Xingli Zou, Li Ji (), Jianbang Ge, Donald R. Sadoway, Edward T. Yu and Allen J. Bard
Additional contact information
Xingli Zou: The University of Texas at Austin
Li Ji: The University of Texas at Austin
Jianbang Ge: The University of Texas at Austin
Donald R. Sadoway: Massachusetts Institute of Technology
Edward T. Yu: The University of Texas at Austin
Allen J. Bard: The University of Texas at Austin

Nature Communications, 2019, vol. 10, issue 1, 1-7

Abstract: Abstract Crystalline-silicon solar cells have dominated the photovoltaics market for the past several decades. One of the long standing challenges is the large contribution of silicon wafer cost to the overall module cost. Here, we demonstrate a simple process for making high-purity solar-grade silicon films directly from silicon dioxide via a one-step electrodeposition process in molten salt for possible photovoltaic applications. High-purity silicon films can be deposited with tunable film thickness and doping type by varying the electrodeposition conditions. These electrodeposited silicon films show about 40 to 50% of photocurrent density of a commercial silicon wafer by photoelectrochemical measurements and the highest power conversion efficiency is 3.1% as a solar cell. Compared to the conventional manufacturing process for solar grade silicon wafer production, this approach greatly reduces the capital cost and energy consumption, providing a promising strategy for low-cost silicon solar cells production.

Date: 2019
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Citations: View citations in EconPapers (2)

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DOI: 10.1038/s41467-019-13065-w

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