CVD ZnO缓冲层的高效CIGS和CIS电池

Conference Record of the Twenty Sixth IEEE Photovoltaic Specialists Conference - 1997 Pub Date : 1997-12-31 DOI:10.1109/PVSC.1997.654103

L. Olsen, W. Lei, F. Addis, W. Shafarman, M. Contreras, K. Ramanathan

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引用次数: 7

摘要

本文介绍了具有ZnO缓冲层的CIS和CIGS太阳能电池的研究。这些研究是华盛顿州立大学(WSU)、能源转换研究所(IEC)和国家可再生能源实验室(NREL)的研究人员共同努力的结果。采用西门子CIS和NREL CIGS衬底制备ZnO缓冲层细胞。ZnO/CIGS电池的有效面积效率达到13.95%。锌加合物与四氢呋喃反应生长ZnO缓冲层，采用两步法:在250/spl度/C下生长约100 /spl Aring/ ZnO;然后在100/spl度/C下生长500 ~ 700 /spl的ZnO。高温步骤是实现良好电池性能所必需的。结果表明，将CIGS暴露于250/spl度/C的氢气中可以去除表面和次表面区域的污染物和/或钝化复合中心。

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High efficiency CIGS and CIS cells with CVD ZnO buffer layers

This paper describes investigations of CIS and CIGS solar cells with ZnO buffer layers. These studies are a result of a team effort between investigators at Washington State University (WSU), the Institute Of Energy Conversion (IEC) and the National Renewable Energy Laboratory (NREL). Cells with ZnO buffer layers were fabricated with both Siemens CIS and NREL CIGS substrates. An active area efficiency of 13.95% was achieved for a ZnO/CIGS cell. ZnO buffer layers are grown by reacting a zinc adduct with tetrahydrofuran using a two-step approach: growth of approximately 100 /spl Aring/ of ZnO at 250/spl deg/C; and then growth of 500 to 700 /spl Aring/ of ZnO at 100/spl deg/C. The high temperature step is necessary to achieve good cell performance. It appears that exposure of CIGS to hydrogen at 250/spl deg/C may remove contaminants and/or passivate recombination centers on the surface and subsurface regions.

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Conference Record of the Twenty Sixth IEEE Photovoltaic Specialists Conference - 1997

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