Recovery After Potential-Induced Degradation of CuIn<inline-formula>  src='/images/tex/25058.gif' alt='_{{bf 1}-{bm x}}'> </inline-formula>Ga<inline-formula>  src='/images/tex/19252.gif' alt='_{bm x}'> </inline-formula>Se<inline-formula>  src='/images/tex/996.gif' alt='_{bf 2}'> </inline-formula> Solar Cells With CdS and Zn(O,S) Buffer Layers

Fjallstrom V.; Szaniawski P.; Vermang B.; Salome P.M.P.; Rostvall F.; Zimmermann U.; Edoff M.

首页> 外文期刊>Photovoltaics, IEEE Journal of >Recovery After Potential-Induced Degradation of CuIn src='/images/tex/25058.gif' alt='_{{bf 1}-{bm x}}'> Ga src='/images/tex/19252.gif' alt='_{bm x}'> Se src='/images/tex/996.gif' alt='_{bf 2}'> Solar Cells With CdS and Zn(O,S) Buffer Layers

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Recovery After Potential-Induced Degradation of CuIn src='/images/tex/25058.gif' alt='_{{bf 1}-{bm x}}'> Ga src='/images/tex/19252.gif' alt='_{bm x}'> Se src='/images/tex/996.gif' alt='_{bf 2}'> Solar Cells With CdS and Zn(O,S) Buffer Layers

机译：CuIn 引起的潜在降解后的恢复 src =“ / images / tex / 25058.gif” alt =“ _ {{bf 1}-{bm x}}”> Ga src =“ / images / tex / 19252.gif” alt =“ _ {bm x}”> Se src =“ / images / tex / 996.gif“ alt =” _ {bf 2}“> 具有CdS和Zn（O，S）缓冲层的太阳能电池

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This study deals with potential-induced degradation (PID) of Cu(In,Ga)Se-based solar cells and different approaches to subsequent recovery of efficiency. Three different recovery methods were studied: 1) etch recovery, 2) accelerated recovery, and 3) unaccelerated recovery. After being completely degraded, the solar cells with CdS buffer layers recovered their efficiencies at different rates, depending on the method which was used. On the other hand, if Zn(O,S) was used as a buffer layer instead of CdS, the recovery rate was close to zero. The buffer layer type clearly influenced the sodium distribution during PID stressing and recovery, as well as the possibilities for recovery of the electrical performance.

机译：这项研究涉及潜在的诱导降解（PID）的基于Cu（In，Ga）Se的太阳能电池和不同的方法来恢复效率。研究了三种不同的恢复方法：1）蚀刻恢复，2）加速恢复和3）非加速恢复。完全降解后，具有CdS缓冲层的太阳能电池将根据使用的方法以不同的速率恢复其效率。另一方面，如果使用Zn（O，S）代替CdS作为缓冲层，则回收率接近于零。缓冲层的类型明显影响了PID应力和恢复过程中的钠分布，以及恢复电性能的可能性。

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来源
《Photovoltaics, IEEE Journal of》 |2015年第2期|664-669|共6页
作者
Fjallstrom V.; Szaniawski P.; Vermang B.; Salome P.M.P.; Rostvall F.; Zimmermann U.; Edoff M.;
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作者单位

??ngstr??m Laboratory, Solid State Electronics, ??ngstr??m Solar Center, Uppsala University, Uppsala, Sweden;

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正文语种 eng
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关键词
Acceleration; Buffer layers; Degradation; Glass; Photovoltaic cells; Stress; Thyristors; Buffer layer; Cu(In,Ga)Se2 (CIGS); potential-induced degradation (PID); thin-film solar cells;

机译：加速;缓冲层;降解;玻璃;光伏电池;应力;晶闸管;缓冲层;Cu（In;Ga）Se2（CIGS）;电势退化（PID）;薄膜太阳能电池;

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机译：基于紧凑的电阻式CMOS温度传感器，其不准确为0.12°C（3 $ Sigma $ ）和0.43 pj $ cdot $ k $ ^ {2} $ 65-nm cmos

Recovery After Potential-Induced Degradation of CuIn src='/images/tex/25058.gif' alt='_{{bf 1}-{bm x}}'> Ga src='/images/tex/19252.gif' alt='_{bm x}'> Se src='/images/tex/996.gif' alt='_{bf 2}'> Solar Cells With CdS and Zn(O,S) Buffer Layers

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