Cu(In, Al)S2 thin films prepared from rapid thermal annealing of Cu-In-Al-S precursors and Cu-In-Al alloys

2011 37th IEEE Photovoltaic Specialists Conference Pub Date : 2011-06-19 DOI:10.1109/PVSC.2011.6185985

Y. Oda, Ryosuke Hamazaki, Shohei Fukamizu, Akito Yamamoto, T. Minemoto, H. Takakura

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Abstract

Cu(In, Al)S2 (CIAS) absorbers had heavy roughness and a lot of particles like islands, in addition, the grain-size was small in the co-evaporation at high substrate temperature of 500°C∼, resulted in the low efficiency. To enhance the flatness and the crystal growth (large grain-size), we investigated CIAS absorbers prepared from post-annealed Cu-In-Al-S precursors and sulfurized Cu-In-Al alloys. A rapid thermal processing was used in the post-annealing and the sulfurization. The flatness of the post-annealed Cu-In-Al-S precursors enhanced but the efficiency of solar cells used the precursors was low due to the incomplete crystal growth. In contract, the sulfurized Cu-In-Al alloys became the separated layers which were the large grain-size layer and the small grain-size layer. It was revealed that the large grain-size layer and small one were CuInS2 and CIAS from both an XRD and an EDS analysis of the detached film. Furthermore, 9.6% efficiency was obtained in the solar cell used the sulfurized Cu-In-Al alloy.

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采用Cu-In-Al- s前驱体和Cu-In-Al合金快速热退火法制备Cu(In, Al)S2薄膜

Cu(In, Al)S2 (CIAS)吸收体表面粗糙度大，存在大量岛状颗粒，且在500℃~高温下共蒸发时晶粒尺寸小，导致效率低。为了提高Cu-In-Al- s前驱体的平整度和晶体生长(大晶粒尺寸)，我们研究了由退火后的Cu-In-Al- s前驱体和硫化Cu-In-Al合金制备的CIAS吸收剂。后退火和硫化采用快速热处理。退火后的Cu-In-Al-S前驱体的平整度提高，但由于晶体生长不完全，使用该前驱体的太阳能电池效率较低。相反，Cu-In-Al合金在硫化后形成大晶粒层和小晶粒层的分离层。对分离膜进行XRD和EDS分析，发现大晶粒层和小晶粒层分别为CuInS2和CIAS。此外，使用硫化Cu-In-Al合金的太阳能电池效率达到了9.6%。

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2011 37th IEEE Photovoltaic Specialists Conference

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