退火温度和老化时间对Cu2S/CdS太阳能电池能量转换效率的影响

International Multi-Conference on Systems, Sygnals & Devices Pub Date : 2012-03-20 DOI:10.1109/SSD.2012.6197914

W. F. Mohammad

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引用次数: 0

摘要

采用真空热蒸发技术，在不同沉积参数下制备了不同结构的Cu2S/CdS太阳能电池。测定了CdS薄膜在不同波长下的透过率。薄膜在红外区域具有较高的透过率，在近500 nm处吸收边缘急剧下降。另一方面，Cu2S层在700nm波长处具有最大透过率。我们还注意到，经过100°C退火的样品产生了最大的光电流(1.5 mA)，但较低的开路电压(0.365 V)。经过400°C退火的样品产生了最大的开路电压(0.4V)和较低的短路电流(1.3 mA)。研究了Cu2S/ CdS薄膜在重复光照和退火循环下Voc随老化时间的变化规律。结果表明，退火处理改善了制备的有机化合物样品和有机化合物。随着时间的推移而增加。一项涉及热处理、清洗和在太阳能电池顶部沉积一层非常薄的铜的技术已经被用来提高电池的效率。

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Investigations of annealing temperatureand aging time on energy conversion efficiency of Cu2S/CdS solar cells

Different structures of Cu2S/CdS solar cells under different deposition parameters were prepared using vacuum thermal evaporation technique. The transmittance of CdS thin films was measured for different light wavelengths. The films exhibited high degree of transmittance in the infrared region and sharp falling absorption edge at nearly 500 nm. On the other hand Cu2S layer has a maximum transmittance at 700 nm wavelength. It was also noticed that the sample exposed to 100°C annealing gave maximum photocurrent (1.5 mA) but lower open circuit voltage (0.365 V). A maximum open circuit voltage (0.4V) and lower short circuit current (1.3 mA) was produced by the sample exposed to 400°C annealing. The variation of Voc as a function of aging time for the Cu2S/ CdS films under repeated cycles of illumination and annealing is investigated. The results show clearly that the annealing improves the fabricated Voc samples and Voc. increases considerably with time. A technique involving heat treatment, washing and depositing a very thin layer of copper on top of the solar cell has been employed to improve the cell efficiency.

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International Multi-Conference on Systems, Sygnals & Devices

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