PROGRESS IN TRIPLE-JUNCTION AMORPHOUS SILICON-BASED ALLOY SOLAR CELLS AND MODULES USING HYDROGEN DILUTION

机译：氢稀释在三结非晶硅基合金太阳能电池及组件方面的进展

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We have achieved a stable module efficiency of 10.2% using amorphous silicon-based alloy in a triple-junction structure. This record performance has been accomplished by improving the component cells, the "tunnel" junction between the component cells, the back reflector, the uniformity over one-square-foot area, and the module design. Further advances have been made in the initial performance of the component cells by using high hydrogen dilution. The top cell, having J_(sc) > 8 mA/cm~2, exhibits Voc = 1.014 V and FF = 0.78. The middle cell, showing Voc = 0.757 V and FF = 0.719, exhibits Jsc = 9.5 mA/cm~2 under AM 1.5 illumination with a 530 nm cut-on filter. A record initial power output of 4.43 mW/cm~2 for the bottom cell has been obtained under AM 1.5 with a 630 nm cut-on filter. Light soaking experiments for the improved component cells also show higher stabilized values than previously reported ones.

机译：我们使用三结结构的非晶硅基合金实现了10.2％的稳定模块效率。通过改善组成单元，组成单元之间的“隧道”结，后反射器，一平方英尺的均匀性以及模块设计，可以实现这种记录性能。通过使用高氢稀释，在组成电池的初始性能方面取得了进一步的进步。 J_（sc）> 8 mA / cm〜2的顶部电池具有Voc = 1.014 V和FF = 0.78。中间电池显示Voc = 0.757 V，FF = 0.719，在AM 1.5照明下，用530 nm截止滤光片显示Jsc = 9.5 mA / cm〜2。在AM 1.5下使用630 nm截止滤光片，底部电池的初始功率输出达到创纪录的4.43 mW / cm〜2。改进的组成单元的光浸泡实验也显示出比以前报道的稳定值更高的稳定值。

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《IEEE world conference on photovoltaic energy conversion;WCPEC;IEEE photovoltaic specialists conference;PVSC》|1994年|380-385|共6页
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J. Yang; A. Banerjee; T. Glatfelter; K. Hoffman; X. Xu; S. Guha;
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中图分类物理化学（理论化学）、化学物理学;能源;
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2. Effect of Hydrogen Dilution on the Metastability of Hydrogenated Amorphous Silicon Oxide Solar Cells [J] . Sorapong Inthisang, Taweewat Krajangsang, Porponth Sichanugrist, Japanese journal of applied physics . 2011,第11Issue1期

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3. Hydrogenated amorphous silicon-germanium thin films with a narrow band gap for silicon-based solar cells [J] . Wang C.-C., Liu C.-Y., Lien S.-Y., Current applied physics: the official journal of the Korean Physical Society . 2011,第Suppla1期

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4. Progress in triple-junction amorphous silicon-based alloy solar cells and modules using hydrogen dilution [C] . Yang, J., Banerjee, . 1994

机译：利用氢稀释的三结非晶硅基合金太阳能电池和组件的研究进展
5. Real time spectroscopic ellipsometry study for the design and optimization of hydrogenated amorphous silicon-based solar cells. [D] . Koh, Joohyun. 1998

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6. Triple-Junction Hybrid Tandem Solar Cells with Amorphous Silicon and Polymer-Fullerene Blends [O] . Taehee Kim, Hyeok Kim, Jinjoo Park, -1

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7. High-Efficiency Amorphous Silicon and Nanocrystalline Silicon-Based Solar Cells and Modules: Final Technical Progress Report, 30 January 2006 - 29 January 2008 [O] . Guha, S., Yang, J. 2008

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8. High-Efficiency Amorphous Silicon and Nanocrystalline Silicon-Based Solar Cells and Modules: Final Technical Progress Report, 30 January 2006 - 29 January 2008 [R] . 2008

机译：高效非晶硅和纳米晶硅基太阳能电池和模块：最终技术进展报告，2006年1月30日 - 2008年1月29日

PROGRESS IN TRIPLE-JUNCTION AMORPHOUS SILICON-BASED ALLOY SOLAR CELLS AND MODULES USING HYDROGEN DILUTION

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