Toward microscale Cu(ln,Ga)Se_2 solar cells for efficient conversion and optimized material usage: Theoretical evaluation

Myriam Paire; Laurent Lombez; Jean-Francois Guillemoles; Daniel Lincot

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Toward microscale Cu(ln,Ga)Se_2 solar cells for efficient conversion and optimized material usage: Theoretical evaluation

机译：面向微型Cu（ln，Ga）Se_2太阳能电池以实现高效转换和优化材料使用：理论评估

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We develop a model to predict the performances of microscale Cu(In,Ga)Se_2 (CIGS) solar cells under concentrated sunlight, based on the study of the influence of the window spread sheet resistance, which is the first limiting factor for concentration on CIGS solar cells. This model can be used to extract the value of the sheet resistance from simple current-voltage or electroluminescence measurements. The scaling benefits associated with the operation of microscale CIGS solar cells are studied. The optimum concentration ratio, linked to the best efficiency, is calculated for different cell sizes. It is predicted that an increase from 20% efficiency, for current CIGS solar cells under 1 sun illumination, up to 30% efficiency can be expected for microscale cells under concentrated sunlight.

机译：我们基于窗口扩展薄层电阻的影响研究开发了一个模型来预测微型Cu（In，Ga）Se_2（CIGS）太阳能电池在集中阳光下的性能，这是浓度对CIGS的第一个限制因素太阳能电池。该模型可用于从简单的电流-电压或电致发光测量中提取薄层电阻值。研究了与微型CIGS太阳能电池运行相关的规模效益。针对不同的细胞大小，计算出与最佳效率相关的最佳浓度比。可以预见，对于当前的CIGS太阳能电池，在1种太阳光照射下，效率将从20％的效率提高到在阳光集中的微型电池中达到30％的效率。

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来源
《Journal of Applied Physics》 |2010年第3期|P.034907.1-034907.7|共7页
作者
Myriam Paire; Laurent Lombez; Jean-Francois Guillemoles; Daniel Lincot;
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作者单位

Institute for research and development on photovoltaic energy (IRDEP), UMR 7174, EDF/CNRS/Chimie ParisTech, 6 quai Watier, 78401 Chatou, France;

Institute for research and development on photovoltaic energy (IRDEP), UMR 7174, EDF/CNRS/Chimie ParisTech, 6 quai Watier, 78401 Chatou, France;

Institute for research and development on photovoltaic energy (IRDEP), UMR 7174, EDF/CNRS/Chimie ParisTech, 6 quai Watier, 78401 Chatou, France;

Institute for research and development on photovoltaic energy (IRDEP), UMR 7174, EDF/CNRS/Chimie ParisTech, 6 quai Watier, 78401 Chatou, France;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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1. Toward microscale Cu(In,Ga)Se2 solar cells for efficient conversion and optimized material usage: Theoretical evaluation [J] . Paire Myriam, Lombez Laurent, Guillemoles Jean-Francois, Journal of Applied Physics . 2010,第3期

机译：面向微型Cu（In，Ga）Se2太阳能电池以实现高效转换和优化材料使用：理论评估
2. Microscale solar cells for high concentration on polycrystalline Cu(ln,Ga)Se_2 thin films [J] . Myriam Paire, Laurent Lombez, Nicolas Pere-Laperne, Applied Physics Letters . 2011,第26期

机译：多晶Cu（In，Ga）Se_2薄膜上高浓度的微型太阳能电池
3. Structural tuning of wide-gap chalcopyrite CuGaSe_2 thin films and highly efficient solar cells: differences from narrow-gap Cu(ln,Ga)Se_2 [J] . Shogo Ishizuka, Akimasa Yamada, Paul J. Fons Progress in photovoltaics . 2014,第7期

机译：宽间隙黄铜矿CuGaSe_2薄膜和高效太阳能电池的结构调整：与窄间隙Cu（ln，Ga）Se_2的差异
4. MICROSCALE CU(IN,GA)SE_2 SOLAR CELLS FOR CONCENTRATION: A PATH TO 30 EFFICIENCY - THEORETICAL EVALUATION AND FIRST EXPERIMENTAL RESULTS [C] . Myriam Paire, Laurent Lombez, Nicolas Pere-Laperne, European Photovoltaic Solar Energy Conference and Exhibition . 2010

机译：微观Cu（In，Ga）SE_2浓度的太阳能电池：30％的效率的途径 - 理论评价和首先实验结果
5. Optimization of Top Contact for Cu(In,Ga)Se2 Solar Cells [D] . Cherukara Rajan, Grace. 2018

机译：用于Cu（IN，GA）SE2太阳能电池的顶部接触的优化
6. Solution-Processed Cu(In Ga)(S Se)2 Nanocrystal as Inorganic Hole-Transporting Material for Efficient and Stable Perovskite Solar Cells [O] . Lu Xu, Lin-Long Deng, Jing Cao, 2017

机译：固溶处理的Cu（InGa）（SSe）2纳米晶体作为高效稳定的钙钛矿太阳能电池的无机空穴传输材料
7. Toward microscale Cu„In,Ga...Se2 solar cells for efficient conversion and optimized material usage: Theoretical evaluation [O] . Paire, Myriam, Lombez, Laurent, Guillemoles, Jean Francois, 2010

机译：朝着微型Cu„ In，Ga ... Se2太阳能电池有效转换和优化材料使用：理论评估

Toward microscale Cu(ln,Ga)Se_2 solar cells for efficient conversion and optimized material usage: Theoretical evaluation

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