Sliver® solar cells: A new thin-crystalline silicon photovoltaic technology

P. J. Verlinden; A. W. Blakers; K. J. Weber; J. Babaei; V. Everett; M. J. Kerr; M. F. Stuckings; D. Gordeev; M. J. Stocks

doi:10.1016/j.solmat.2005.09.025

Sliver^® solar cells: A new thin-crystalline silicon photovoltaic technology

P. J. Verlinden^*, A. W. Blakers, K. J. Weber, J. Babaei, V. Everett, M. J. Kerr, M. F. Stuckings, D. Gordeev, M. J. Stocks

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

29 Citations (Scopus)

Abstract

A new technique for producing thin single-crystal silicon solar cells has been developed. The new technology allows for large decreases in silicon usage by a factor of 12 (including kerf losses) compared to conventional crystalline silicon wafer technologies. The new Sliver^® cell process uses a micromachining technique to form 60 μm-thick solar cells, fully processed while they are still supported by the silicon substrate at the edge of the wafer. The Sliver^® solar cells are capable of excellent performance due to their thickness and unique cell design with demonstrated efficiencies over 19.3% and open-circuit voltages of 683 mV. In addition, the cells are bifacial (accepts light from either sides) and very flexible. Several prototype modules have been fabricated using a new design approach that introduces a diffuse reflector to the rear of a bi-glass module. To save expensive silicon material, a significant gap is kept between cells. The light striking between cells is scattered from the rear reflector and is directed onto the rear surface of the bifacial Sliver^® cells. Module efficiency of 13% (AM1.5, 25C) has been demonstrated with a module presenting a 50% solar-cell coverage fraction, and 18.3% with a 100% Sliver^® cell coverage fraction.

Original language	English
Pages (from-to)	3422-3430
Number of pages	9
Journal	Solar Energy Materials and Solar Cells
Volume	90
Issue number	18-19
DOIs	https://doi.org/10.1016/j.solmat.2005.09.025
Publication status	Published - 23 Nov 2006

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title = "Sliver{\textregistered} solar cells: A new thin-crystalline silicon photovoltaic technology",

abstract = "A new technique for producing thin single-crystal silicon solar cells has been developed. The new technology allows for large decreases in silicon usage by a factor of 12 (including kerf losses) compared to conventional crystalline silicon wafer technologies. The new Sliver{\textregistered} cell process uses a micromachining technique to form 60 μm-thick solar cells, fully processed while they are still supported by the silicon substrate at the edge of the wafer. The Sliver{\textregistered} solar cells are capable of excellent performance due to their thickness and unique cell design with demonstrated efficiencies over 19.3\% and open-circuit voltages of 683 mV. In addition, the cells are bifacial (accepts light from either sides) and very flexible. Several prototype modules have been fabricated using a new design approach that introduces a diffuse reflector to the rear of a bi-glass module. To save expensive silicon material, a significant gap is kept between cells. The light striking between cells is scattered from the rear reflector and is directed onto the rear surface of the bifacial Sliver{\textregistered} cells. Module efficiency of 13\% (AM1.5, 25C) has been demonstrated with a module presenting a 50\% solar-cell coverage fraction, and 18.3\% with a 100\% Sliver{\textregistered} cell coverage fraction.",

keywords = "Lambertian reflector, Micromachining, Monocrystalline, Silicon, Thin",

author = "Verlinden, \{P. J.\} and Blakers, \{A. W.\} and Weber, \{K. J.\} and J. Babaei and V. Everett and Kerr, \{M. J.\} and Stuckings, \{M. F.\} and D. Gordeev and Stocks, \{M. J.\}",

year = "2006",

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doi = "10.1016/j.solmat.2005.09.025",

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T1 - Sliver® solar cells

T2 - A new thin-crystalline silicon photovoltaic technology

AU - Verlinden, P. J.

AU - Blakers, A. W.

AU - Weber, K. J.

AU - Babaei, J.

AU - Everett, V.

AU - Kerr, M. J.

AU - Stuckings, M. F.

AU - Gordeev, D.

AU - Stocks, M. J.

PY - 2006/11/23

Y1 - 2006/11/23

N2 - A new technique for producing thin single-crystal silicon solar cells has been developed. The new technology allows for large decreases in silicon usage by a factor of 12 (including kerf losses) compared to conventional crystalline silicon wafer technologies. The new Sliver® cell process uses a micromachining technique to form 60 μm-thick solar cells, fully processed while they are still supported by the silicon substrate at the edge of the wafer. The Sliver® solar cells are capable of excellent performance due to their thickness and unique cell design with demonstrated efficiencies over 19.3% and open-circuit voltages of 683 mV. In addition, the cells are bifacial (accepts light from either sides) and very flexible. Several prototype modules have been fabricated using a new design approach that introduces a diffuse reflector to the rear of a bi-glass module. To save expensive silicon material, a significant gap is kept between cells. The light striking between cells is scattered from the rear reflector and is directed onto the rear surface of the bifacial Sliver® cells. Module efficiency of 13% (AM1.5, 25C) has been demonstrated with a module presenting a 50% solar-cell coverage fraction, and 18.3% with a 100% Sliver® cell coverage fraction.

AB - A new technique for producing thin single-crystal silicon solar cells has been developed. The new technology allows for large decreases in silicon usage by a factor of 12 (including kerf losses) compared to conventional crystalline silicon wafer technologies. The new Sliver® cell process uses a micromachining technique to form 60 μm-thick solar cells, fully processed while they are still supported by the silicon substrate at the edge of the wafer. The Sliver® solar cells are capable of excellent performance due to their thickness and unique cell design with demonstrated efficiencies over 19.3% and open-circuit voltages of 683 mV. In addition, the cells are bifacial (accepts light from either sides) and very flexible. Several prototype modules have been fabricated using a new design approach that introduces a diffuse reflector to the rear of a bi-glass module. To save expensive silicon material, a significant gap is kept between cells. The light striking between cells is scattered from the rear reflector and is directed onto the rear surface of the bifacial Sliver® cells. Module efficiency of 13% (AM1.5, 25C) has been demonstrated with a module presenting a 50% solar-cell coverage fraction, and 18.3% with a 100% Sliver® cell coverage fraction.

KW - Lambertian reflector

KW - Micromachining

KW - Monocrystalline

KW - Silicon

KW - Thin

UR - https://www.scopus.com/pages/publications/33748294213

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DO - 10.1016/j.solmat.2005.09.025

M3 - Article

SN - 0927-0248

VL - 90

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EP - 3430

JO - Solar Energy Materials and Solar Cells

JF - Solar Energy Materials and Solar Cells

IS - 18-19

ER -

Sliver^® solar cells: A new thin-crystalline silicon photovoltaic technology

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