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Front surface engineering of high efficiency Si solar cells and Ge TPV cells

Conference Record of the Twenty Sixth IEEE Photovoltaic Specialists Conference - 1997 Pub Date : 1997-12-31 DOI:10.1109/PVSC.1997.654220
M. Faur, S. Bailey, D. Flood, D. Brinker, D. Wheeler, S.A. Alterovitz, D. Scheiman, G. Mateescu, J. Faulk, C. Goradia, M. Goradia
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引用次数: 4

Abstract

We demonstrate the effectiveness of using wet chemical techniques for Si and Ge planar surfaces to form nanoporous layers, and grow stable passivating oxide layers on planar and porous surfaces, after the front grid metallization step. Our results show that this passivated chemical oxide layer: (i) can serve as an effective window/first layer AR coating, (ii) is chemically, thermally and UV stable, (iii) can simplify the structure of Si, Ge and III-V based space solar cells, thereby reducing cost, and (iv) has the potential of improving the BOL and especially the EOL efficiency of Si and III-V based space solar cells.
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高效硅太阳能电池和锗TPV电池的前表面工程
我们证明了使用湿化学技术在Si和Ge平面表面形成纳米孔层的有效性,并在平面和多孔表面上生长稳定的钝化氧化物层,在前网格金属化步骤之后。我们的研究结果表明,该钝化化学氧化层:(i)可以作为有效的窗口/第一层AR涂层,(ii)具有化学、热和紫外稳定性,(iii)可以简化Si、Ge和iii - v基空间太阳能电池的结构,从而降低成本,(iv)具有提高Si和iii - v基空间太阳能电池BOL特别是EOL效率的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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Conference Record of the Twenty Sixth IEEE Photovoltaic Specialists Conference - 1997
Conference Record of the Twenty Sixth IEEE Photovoltaic Specialists Conference - 1997
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