CuIn(Se_(1-x)Te_x)2 solar cells with tunable narrow-bandgap for bottom cell application in multijunction photovoltaic devices

Jehl-Li-Kao Z.; Kobayashi T.; Nakada T.

首页> 外文期刊>Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion >CuIn(Se_(1-x)Te_x)2 solar cells with tunable narrow-bandgap for bottom cell application in multijunction photovoltaic devices

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CuIn(Se_(1-x)Te_x)2 solar cells with tunable narrow-bandgap for bottom cell application in multijunction photovoltaic devices

机译：具有可调窄带隙的CuIn（Se_（1-x）Te_x）2太阳能电池，用于多结光伏器件中的底部电池应用

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Narrow-bandgap CuIn(Se_(1-x),Te_x)_2-based solar cells for bottom cell application in multijunction photovoltaic devices were developed and characterized. Compact and well crystallized 2 μm films are obtained by single-stage coevaporation process on Mo-coated soda lime glass. Narrow bandgaps ranging from 0.98 eV to 0.88 eV were measured depending on the Te content of the films. The solar cells were characterized by current density versus voltage under standard AM 1.5 illumination and under a wider bandgap CIGSe/SLG filter. The same methodology was applied for the spectral response analysis, and the beneficial effect of the narrow bandgap in the multijunction configuration was remarkable in the low energy spectral region. Efficiencies higher than 7% under AM 1.5 illumination, and close to 2% in the multijunction-like configuration, were achieved.

机译：开发并表征了用于多结光伏器件底部电池的窄带CuIn（Se_（1-x），Te_x）_2基太阳能电池。通过单步共蒸发工艺，在涂Mo的钠钙玻璃上获得致密且结晶良好的2μm薄膜。测量的窄带隙范围为0.98 eV至0.88 eV，具体取决于薄膜的Te含量。在标准AM 1.5照明和较宽的带隙CIGSe / SLG滤光片下，太阳能电池的特征在于电流密度与电压的关系。将相同的方法用于光谱响应分析，并且在低能谱区域中，窄带隙在多结构型中的有益效果非常明显。在AM 1.5照明下，效率高于7％，而在多结状配置中，效率接近2％。

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《Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion》 |2013年第null期|共5页
作者
Jehl-Li-Kao Z.; Kobayashi T.; Nakada T.;
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正文语种 eng
中图分类太阳能技术;各种发电;
关键词
Chalcopyrite; Copper indium selenide telluride; CuIn(SeTe); Multijunction; Narrow gap; Tandem solar cells;

机译：黄铜矿;硒化铜铟硒;CuIn（SeTe）;多结;窄间隙;串联太阳能电池;

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1. CuIn(Se_(1-x)Te_x)2 solar cells with tunable narrow-bandgap for bottom cell application in multijunction photovoltaic devices [J] . Jehl-Li-Kao Z., Kobayashi T., Nakada T. Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion . 2013,第Null期

机译：具有可调窄带隙的CuIn（Se_（1-x）Te_x）2太阳能电池，用于多结光伏器件中的底部电池应用
2. Cuin_(1-x)ga_xse_2 Photovoltaic Devices For Tandem Solar Cell Application [J] . S. Seyrling, S. Calnan, S. Buecheler, Thin Solid Films . 2009,第7期

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4. Narrow bandgap CuIn(Se_x,Te_(1-x))_2 - based solar cells for chalcopyrite tandem photovoltaic devices [C] . Z. Jehl Li-Kao, T. Kobayashi, T. Nakada IEEE Photovoltaic Specialists Conference . 2013

机译：窄带隙Cuin（SE_X，TE_（1-X））_基于氯化物串联光伏器件的基于2的太阳能电池
5. An analysis of multijunction, quantum coherent, and hot carrier solar photovoltaic cells [D] . Kirk, Alexander P. 2012

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8. Theoretical and Experimental Research in Space Photovoltaics: Electrodeposition of CuIn(x)Ga(1-x)Se2 (CIGS) Thin Layers for CdS/CIGS Solar Cell Applications [R] . Faur, Mircea 1997

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CuIn(Se_(1-x)Te_x)2 solar cells with tunable narrow-bandgap for bottom cell application in multijunction photovoltaic devices

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