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Fostering Charge Carrier Transport and Absorber Growth Properties in CZTSSe Thin Films with an ALD-SnO 2 Capping Layer.

Kuldeep Singh GourPravin S PawarMinwoo LeeVijay C KaradeJae Sung YunJaeyeong HeoJongsung ParkJae Ho YunJin Hyeok Kim
Published in: ACS applied materials & interfaces (2024)
The present study demonstrates that precursor passivation is an effective approach for improving the crystallization process and controlling the detrimental defect density in high-efficiency Cu 2 ZnSn(S,Se) 4 (CZTSSe) thin films. It is achieved by applying the atomic layer deposition (ALD) of the tin oxide (ALD-SnO 2 ) capping layer onto the precursor (Cu-Zn-Sn) thin films. The ALD-SnO 2 capping layer was observed to facilitate the homogeneous growth of crystalline grains and mitigate defects prior to sulfo-selenization in CZTSSe thin films. Particularly, the Cu Zn and Sn Zn defects and deep defects associated with Sn were effectively mitigated due to the reduction of Sn 2+ and the increase in Sn 4+ levels in the kesterite CZTSSe film after introducing ALD-SnO 2 on the precursor films. Subsequently, devices integrating the ALD-SnO 2 layer exhibited significantly reduced recombination and efficient charge transport at the heterojunction interface and within the bulk CZTSSe absorber bulk properties. Finally, the CZTSSe device showed improved power conversion efficiency (PCE) from 8.46% to 10.1%. The incorporation of ALD-SnO 2 revealed reduced defect sites, grain boundaries, and surface roughness, improving the performance. This study offers a systematic examination of the correlation between the incorporation of the ALD-SnO 2 layer and the improved PCE of CZTSSe thin film solar cells (TFSCs), in addition to innovative approaches for improving absorber quality and defect control to advance the performance of kesterite CZTSSe devices.
Keyphrases
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  • risk assessment
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  • visible light