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$\text{CdSe}_{\mathrm{x}}\text{Te}_{1-\mathrm{x}}/\text{CdTe}$ Devices with Reduced Interface Recombination Through Novel Back Contacts and Group-V Doping

2020 47th IEEE Photovoltaic Specialists Conference (PVSC) Pub Date : 2020-06-14 DOI:10.1109/pvsc45281.2020.9300624
A. Danielson, D. Kuciauskas, Carey Reich, Siming Li, A. Onno, W. Weigand, Anna Kindvall, A. Munshi, Z. Holman, W. Sampath
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Abstract

Since excellent carrier lifetimes and front interface electronic quality are now achieved, rear interface recombination can limit VOC in $\text{CdSe}_{\mathrm{x}}\text{Te}_{1-\mathrm{x}}/\text{CdTe}$ solar cells. Several back-contact structures for devices were fabricated using combinations of tellurium, aluminum oxide, amorphous silicon, and indium tin oxide (ITO). Time-resolved photoluminescence was used to characterize such structures. We show increasingly improved interface passivation through the subsequent use of aluminum oxide, amorphous silicon, and ITO. Additionally, we show that arsenic-doped absorbers form a more passive interface with numerous back contact structures.
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$\text{CdSe}_{\mathrm{x}}\text{Te}_{1-\mathrm{x}}/\text{CdTe}$通过新型反接触和v族掺杂减少界面重组的器件
由于现在实现了优异的载波寿命和前端接口电子质量,后接口重组可以限制$\text{CdSe}_{\ mathm {x}}\text{Te}_{1-\ mathm {x}}/\text{CdTe}$太阳能电池中的VOC。利用碲、氧化铝、非晶硅和氧化铟锡(ITO)的组合制备了几种用于器件的背接触结构。时间分辨光致发光被用来表征这种结构。通过随后使用氧化铝、非晶硅和ITO,界面钝化性能得到了越来越大的改善。此外,我们表明,砷掺杂吸收剂形成一个更被动的界面与许多背接触结构。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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2020 47th IEEE Photovoltaic Specialists Conference (PVSC)
2020 47th IEEE Photovoltaic Specialists Conference (PVSC)
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