E. Ihalane, L. Atourki, L. Alahyane, H. Kirou, L. Boulkaddat, E. hamri, A. Ihlal, K. Bouabid
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引用次数: 2
摘要
本文利用SCAPS-1D数值模拟器对ZnO/Cd 0.8 Zn 0.2 S/CuIn (1-y) Ga y Se 2 /CuInSe 2结构进行了模拟研究。为了达到更高的效率,研究了梯度和非梯度CIGS吸收层和缓冲层厚度对电池性能的影响。研究了量子效率随波长和厚度的变化规律。当吸收剂厚度在2 μ m ~ 3.5 μ m之间,受体浓度约为2.10 ~ 16 cm 3时,CIGS电池的效率达到22.05%左右。另一方面,我们研究了Cd 0.8 Zn 0.2 S三元化合物缓冲液对p-CIGS电池顶部的影响。这些模拟结果为进一步开发以Cd 0.8 Zn 0.2 S作为缓冲层的CuInGaSe - 2多层薄膜太阳能电池提供了重要的指导
Numerical Simulation of Quantum Efficiency of Cd0.8Zn0.2S /CIGS Solar Cells
The paper presents a simulation study using the numerical simulator SCAPS-1D to model ZnO/Cd 0.8 Zn 0.2 S/CuIn (1-y) Ga y Se 2 /CuInSe 2 structures. Effects of thickness of graded and ungraded CIGS absorbers and buffer layers on cell performance have been investigated with the aim to reach a higher efficiency. Quantum efficiency (QE) as function of wavelength and thickness of these layers was studied . The high efficiency of CIGS cells, in order of 22.05%, has reached with the absorbers thickness between 2I¼m and 3.5I¼m and with acceptor concentration of about 2.10 16 cm 3 . Other hand, we investigate the effect of Cd 0.8 Zn 0.2 S ternary compound buffer on the top of the p-CIGS cell. These simulation results give some important indication to enable further development of multilayer thin-film solar cells based on CuInGaSe 2 with Cd 0.8 Zn 0.2 S as buffer layer instead of CdS
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