异质外延薄膜c-Si异质结太阳能电池的器件物理

S. Grover, C. Teplin, Jian V. Li, D. Bobela, J. Bornstein, P. Schroeter, S. Johnston, H. Guthrey, P. Stradins, H. Branz, D. Young
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引用次数: 3

摘要

本文研究了利用热线化学气相沉积(HWCVD)技术在异质外延生长的单晶硅薄膜上制备的异质结太阳能电池。异质外延引起的位错限制了电池的性能,为研究薄晶硅异质结太阳能电池的器件物理提供了一个独特的平台。这些位错的氢钝化使电压VOC接近580 mV。然而,位错是部分活跃的,即使在钝化后。使用标准的表征方法,我们比较了异质外延吸收剂和无位错的同质外延吸收剂的性能。异质外延电池具有较小的扩散长度和较大的理想因子,表明重组更强,导致电流收集效率低下,VOC低于同质外延电池。模拟结果表明,由缺陷吸收剂制成的异质结电池反转层的复合与整体的复合相当。温度相关的VOC测量表明,由于位错的存在,界面上出现了显著的重组。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Device physics of heteroepitaxial film c-Si heterojunction solar cells
We characterize heterojunction solar cells made from single-crystal silicon films grown heteroepitaxially using hot-wire chemical vapor deposition (HWCVD). Heteroepitaxy-induced dislocations limit the cell performance, providing a unique platform to study the device physics of thin crystal Si heterojunction solar cells. Hydrogen passivation of these dislocations enables an opencircuit voltage VOC close to 580 mV. However, dislocations are partially active, even after passivation. Using standard characterization methods, we compare the performance of heteroepitaxial absorbers with homoepitaxial absorbers that are free of dislocations. Heteroepitaxial cells have a smaller diffusion length and a larger ideality factor, indicating stronger recombination, which leads to inefficient current collection and a lower VOC than homoepitaxial cells. Modeling indicates that the recombination in the inversion layer of heterojunction cells made from defective absorbers is comparable with the overall recombination in the bulk. Temperature-dependent VOC measurements point to significant recombination at the interface that is attributable to the presence of dislocations.
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