The p recombination layer in tunnel junctions for micromorph tandem solar cells

A new tunnel recombination junction is fabricated for n-i-p type micromorph tandem solar cells. We insert a thin heavily doped hydrogenated amorphous silicon （a-Si：H） p^＋ recombination layer between the n a-Si：H and the p hydrogenated nanocrystalline silicon （nc-Si：H） layers to improve the performan...

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Veröffentlicht in:	Chinese physics B 2011-07, Vol.20 (7), p.490-494
1. Verfasser:	姚文杰曾湘波彭文博刘石勇谢小兵王超廖显伯
Format:	Artikel
Sprache:	eng
Schlagworte:	Deposition Inserts Open circuit voltage Photovoltaic cells Solar cells Tunnel junctions Tunnels (transportation) Volatile organic compounds 叠层太阳能电池复合层微晶挥发性有机化合物氢化纳米硅氢化非晶硅电压特性隧道结
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container_end_page	494
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container_title	Chinese physics B
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creator	姚文杰曾湘波彭文博刘石勇谢小兵王超廖显伯
description	A new tunnel recombination junction is fabricated for n-i-p type micromorph tandem solar cells. We insert a thin heavily doped hydrogenated amorphous silicon （a-Si：H） p^＋ recombination layer between the n a-Si：H and the p hydrogenated nanocrystalline silicon （nc-Si：H） layers to improve the performance of the n-i-p tandem solar cells. The effects of the boron doping gas ratio and the deposition time of the p-a-Si：H recombination layer on the tunnel recombination junctions have been investigated. The current-voltage characteristic of the tunnel recombination junction shows a nearly ohmic characteristic, and the resistance of the tunnel recombination junction can be as low as 1.5 Ω-cm^2 by using the optimized p-a-Si：H recombination layer. We obtain tandem solar cells with open circuit voltage Voc = 1.4 V, which is nearly the sum of the Vocs of the two corresponding single cells, indicating no Voc losses at the tunnel recombination junction.
doi_str_mv	10.1088/1674-1056/20/7/078402
format	Article
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We insert a thin heavily doped hydrogenated amorphous silicon （a-Si：H） p^＋ recombination layer between the n a-Si：H and the p hydrogenated nanocrystalline silicon （nc-Si：H） layers to improve the performance of the n-i-p tandem solar cells. The effects of the boron doping gas ratio and the deposition time of the p-a-Si：H recombination layer on the tunnel recombination junctions have been investigated. The current-voltage characteristic of the tunnel recombination junction shows a nearly ohmic characteristic, and the resistance of the tunnel recombination junction can be as low as 1.5 Ω-cm^2 by using the optimized p-a-Si：H recombination layer. 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subjects	Deposition Inserts Open circuit voltage Photovoltaic cells Solar cells Tunnel junctions Tunnels (transportation) Volatile organic compounds 叠层太阳能电池复合层微晶挥发性有机化合物氢化纳米硅氢化非晶硅电压特性隧道结
title	The p recombination layer in tunnel junctions for micromorph tandem solar cells
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