材料科学
化学工程
纳米技术
光电子学
工程物理
工程类
作者
Hanpeng Wang,Daming Zhuang,Ming Zhao,Hao Tong,Mengyao Jia,Junsu Han,Zhihao Wu,Qianming Gong
标识
DOI:10.1021/acsami.4c08578
摘要
The degree of selenization of the CIGSe absorbers is controlled by regulating the parameters of the selenization reaction. The structure, element distribution, phase composition of the CIGSe absorbers, and the performances of the solar cells with different selenization degrees are studied. Insufficient selenization will lead to residual Cu2Se phase on the surface and insufficient Na diffusion, which will affect the VCu+ on the surface and the recombination at the front interface. However, excessive selenization will make the MoSe2 layer thicken at the back interface of the CIGSe/Mo, resulting in the increase of the series resistance and the enhancement of the recombination at the back interface. The appropriate selenization degree is conducive to inhibiting the recombination at the front and back interfaces. Improved device performances can be obtained by optimizing the selenization degree of the absorbers.
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