Conduction Band Offset Effect on the Cu2ZnSnS4 Solar Cells Performance

Annales de Chimie - Science des Matériaux Pub Date : 2021-12-31 DOI:10.18280/acsm.450601

A. Latrous, R. Mahamdi, N. Touafek, M. Pasquinelli

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Abstract

Among the causes of the degradation of the performance of kesterite-based solar cells is the wrong choice of the n-type buffer layer which has direct repercussions on the unfavorable band alignment, the conduction band offset (CBO) at the interface of the absorber/buffer junction which is one of the major causes of lower VOC. In this work, the effect of CBO at the interface of the junction (CZTS/Cd(1-x)ZnxS) as a function of the x composition of Zn with respect to (Zn+Cd) is studied using the SCAPS-1D simulator package. The obtained results show that the performance of the solar cells reaches a maximum values (Jsc = 13.9 mA/cm2, Voc = 0.757 V, FF = 65.6%, ɳ = 6.9%) for an optimal value of CBO = -0.2 eV and Zn proportion of the buffer x = 0.4 (Cd0.6Zn0.4S). The CZTS solar cells parameters are affected by the thickness and the concentration of acceptor carriers. The best performances are obtained for CZTS absorber layer, thichness (d = 2.5 µm) and (ND = 1016 cm-3). The obtained results of optimizing the electron work function of the back metal contact exhibited an optimum value at 5.7 eV with power conversion efficiency of 13.1%, Voc of 0.961 mV, FF of 67.3% and Jsc of 20.2 mA/cm2.

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传导带偏移对Cu2ZnSnS4太阳能电池性能的影响

氮型缓冲层的选择不当直接影响了吸收层/缓冲层界面处的导带偏移(CBO)，这是导致VOC降低的主要原因之一。在这项工作中，使用SCAPS-1D模拟器包研究了连接界面(CZTS/Cd(1-x)ZnxS)的CBO作为Zn相对于(Zn+Cd)的x组成的函数的影响。结果表明，当CBO = -0.2 eV，缓冲液Zn比例x = 0.4 (Cd0.6Zn0.4S)时，电池的性能达到最大值(Jsc = 13.9 mA/cm2, Voc = 0.757 V, FF = 65.6%， bex = 6.9%)。受体载流子的厚度和浓度对CZTS太阳能电池的参数有影响。吸收层厚度(d = 2.5µm)和ND = 1016 cm-3时，吸收层的性能最好。优化后金属触点的电子功函数在5.7 eV时达到最优值，功率转换效率为13.1%，Voc为0.961 mV, FF为67.3%，Jsc为20.2 mA/cm2。

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Annales de Chimie - Science des Matériaux

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