Current enhancement of CdTe-based solar cells

机译：基于CdTe的太阳能电池的当前增强

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We report on the realization of current enhancement for CdTe-based solar cells grown on commercial SnO2/SnO2:F coated soda-lime glass substrates. We used sputtered CdSe window layer to facilitate the formation of CdSexTe1-x alloys during high temperature CSS CdTe deposition. The reduced band gap leads to current enhancement in the long wavelength region. We optimize the thickness of CdSe to enhance the blue response and current enhancement in the short wavelength region. The application of CdSe window layer leads to lower open-circuit voltage (VOC). We have applied combined CdS/CdSe window layers to maintain both short-circuit current (JSC) and VOC. With optimized synthesis, a small area cell with CdS/CdSe window layer showed an efficiency of 15.1% with a VOC of 830 mV, a short-circuit current of 26.3 mA/cm2 and a fill-factor of 69.1%, measured under an AM1.5 illumination. Further improvement on cell performance is expected when the interfaces are further optimized.

机译：我们报告了在商用SnO2 / SnO2：F涂层钠钙玻璃基板上生长的基于CdTe的太阳能电池当前增强的实现。我们使用溅射的CdSe窗口层来促进高温CSS CdTe沉积过程中CdSexTe1-x合金的形成。减小的带隙导致长波长区域中的电流增强。我们优化了CdSe的厚度，以增强蓝光响应和短波长区域电流的增强。 CdSe窗口层的应用导致较低的开路电压（VOC）。我们已经应用了组合的CdS / CdSe窗口层来维持短路电流（JSC）和VOC。通过优化的合成，具有CdS / CdSe窗口层的小面积电池在AM1下测得的效率为15.1％，VOC为830 mV，短路电流为26.3 mA / cm2，填充系数为69.1％ .5照明。当进一步优化接口时，有望进一步提高单元性能。

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《IEEE Photovoltaic Specialists Conference》|2015年|1-3|共3页
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Paudel Naba R.; Yan Yanfa;
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Cadmium compounds; Commercialization; II-VI semiconductor materials; CSS; CdSe; CdTe; thin-film; window layer;

机译：镉化合物;商业化; II-VI半导体材料; CSS;硒化镉;碲化镉;薄膜;窗层;

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1. Current Enhancement of CdTe-Based Solar Cells [J] . Paudel Naba R., Poplawsky Jonathan D., Moore Karren L., Photovoltaics, IEEE Journal of . 2015,第5期

机译：基于CdTe的太阳能电池的电流增强
2. The enhancement in cell performance of CdTe-based solar cell with Si/SiO_2 distributed Bragg reflectors [J] . Yunus OEzen Applied Physics . 2020,第8期

机译：基于CDTE的太阳能电池细胞性能提高SI / SiO_2分布式布拉格反射器
3. High-efficiency CdTe-based thin-film solar cells with unltrathin CdS:O window layer and processes with post annealing [J] . Hu Anhong, Zhou Jie, Zhong Penggeng, Solar Energy . 2021,第Jana期

机译：基于高效CDTE的薄膜太阳能电池，具有Unltrathin CDS：O窗层和具有后退火的过程
4. Current Enhancement of CdTe-based Solar Cells [C] . Naba R. Paudel, Yanfa Yan IEEE Photovoltaic Specialist Conference . 2015

机译：基于CDTE的太阳能电池的电流增强
5. Development of II-VI Ternary Alloys for CdTe-Based Solar Cells [D] . Samoilenko, Yegor Yurevich. 2020

机译：基于CDTE的太阳能电池II-VI三元合金的研制
6. Corrigendum: Structural and compositional dependence of the CdTexSe1−x alloy layer photoactivity in CdTe-based solar cells [O] . Jonathan D. Poplawsky, Wei Guo, Naba Paudel, -1

机译：更正：基于CdTe的太阳能电池中CdTexSe1-x合金层光活性的结构和成分依赖性
7. Correction: Corrigendum: Structural and compositional dependence of the CdTexSe1−x alloy layer photoactivity in CdTe-based solar cells [O] . Jonathan D. Poplawsky, Wei Guo, Naba Paudel, 2016

机译：校正：勘误：CDTEXSE1-X合金层Photo切割在CdTe的太阳能电池中的结构和组成依赖性
8. Studies of Basic Electronic Properties of CdTe-Based Solar Cells and Their Evolution DUring Processing and Stress. Final Technical Report October 16, 2001-August 31, 2005 [R] . Kaydanov, V. I., Ohno, T. R. 2007

机译：CdTe基太阳能电池基本电子特性及其演变与加工和应力的研究。最终技术报告2001年10月16日 - 2005年8月31日

Current enhancement of CdTe-based solar cells

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