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Improvement of Efficiency in Kesterite Solar Cells by Intentionally Inserting a Thin MoS 2 Layer into the Back Interface.

Su-Zhen XuYan-Ping SongBin YaoMeng-Ge LiZhan-Hui DingRui DengHeng-Nan LiangXiao-Bo DuYong-Feng Li
Published in: ACS applied materials & interfaces (2024)
A Mo(S,Se) 2 interfacial layer is formed inevitably and uncontrollably between the Mo electrode and Cu 2 ZnSn(S,Se) 4 (CZTSSe) absorber during the selenization process, which significantly influences the performance of CZTSSe solar cells. In this work, an ultrathin MoS 2 layer is intentionally inserted into Mo/CZTSSe to reduce the recombination and thus optimize the interface quality. It is revealed that the absorber exhibits a continuous and compact morphology with bigger grains and remarkably without pinholes across the surface or cross-sectional regions after MoS 2 modification. Benefitting from this, the shunt resistance ( R Sh ) of the device increased evidently from ∼395 to ∼634 Ω·cm 2 , and simultaneously, the reverse saturation current density ( J 0 ) realized an effective depression. As a result, the power conversion efficiency (PCE) of the MoS 2 -modified device reaches 9.64% via the optimization of the thickness of the MoS 2 layer, indicating performance improvements with respect to the MoS 2 -free case. Furthermore, the main contribution to the performance improvement is derived and analyzed in detail from the increased R Sh , decreased J 0 , and diode ideality factor. Our results suggest that the Mo/CZTSSe interface quality and performance of CZTSSe solar cells can be modulated and improved by appropriately designing and optimizing the thickness of the inserted MoS 2 layer.
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