Dual‐Stage Reduction Strategy of Tin Perovskite Enables High Performance Photovoltaics
Yutong Yang, Fan Hu, Tian‐Yu Teng, Chun-Hao Chen, Jing Chen, Namatullah Nizamani, Kai‐Li Wang, Yu Xia, Lei Huang, Zhao‐Kui Wang
Abstract
Abstract The rapid oxidation of Sn 2+ in tin‐based perovskite solar cells (TPSCs) restricts their efficiency and stability have been main bottleneck towards further development. This study developed a novel strategy which utilizes thiosulfate ions (S 2 O 3 2− ) in the precursor solution to enable a dual‐stage reduction process. In the solution stage, thiosulfate acted as an efficacious reducing agent to reduce Sn 4+ to Sn 2+ , meanwhile, its oxidation products were able to reduce I 2 to I − during the film stage. This dual reduction ability effectively inhibited the oxidation of Sn 2+ and passivated defects, further promising an excellent stability of the perovskite devices. As a result, thiosulfate‐incorporated devices achieved a high efficiency of 14.78 % with open‐circuit voltage reaching 0.96 V. The stability of the optimized devices achieved a remarkable improvement, maintaining 90 % of their initial efficiencies after 628 hours at maximum‐power‐point (MPP). The findings provid research insights and experimental data support for the sustained dynamic reduction in TPSCs.