The Effects of Absorber Thickness on Reverse-Bias Damage in Cu(In,Ga)Se2 Solar Cells

机译：吸收剂厚度对Cu（In，Ga）Se 2 太阳能电池反向偏压损伤的影响

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We studied a variety of absorber thicknesses in Cu(In,Ga)Se₂ devices to examine the ability of the cell to withstand reverse current flow without damage. Absorbers were varied from 2.5 μm to 0.4 μm, with the expectation that larger reverse current would be allowed to flow at lower voltages as absorbers were made thinner. Our initial experiments showed promise. However, as the efficiency of thin devices was improved, the reverse current allowed at a given voltage decreased. Here we present our negative results on the ability of thin devices to allow higher reverse currents at lower voltages. We also give details on our procedures for reverse-bias testing small-area solar cells. We hope this information will be useful for those who want to study reverse-bias at the cell level.

机译：我们研究了Cu（In，Ga）Se中各种吸收体厚度 _{2
检查电池承受反向电流而不损坏的能力的设备。吸收体的尺寸从2.5μm到0.4μm不等，因为随着吸收体的变薄，期望在更低的电压下允许更大的反向电流流动。我们最初的实验显示出希望。但是，随着薄型器件效率的提高，在给定电压下允许的反向电流降低了。在这里，我们对薄型设备在较低电压下允许较高反向电流的能力提出了负面结论。我们还提供了有关小面积太阳能电池反向偏置测试程序的详细信息。我们希望这些信息对那些想要在细胞水平研究反向偏向的人有用。}

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《IEEE Photovoltaic Specialists Conference》|2019年|3201-3205|共5页
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Lorelle M. Mansfield; Karen Bowers; Stephen Glynn; Ingrid L. Repins;
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semiconductor device reliability; solar absorber-convertors; solar cells;

机译：半导体器件可靠性;太阳能吸收器-转换器;太阳能电池;

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The Effects of Absorber Thickness on Reverse-Bias Damage in Cu(In,Ga)Se2 Solar Cells

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