Indent-Free Vapor-Assisted Surface Passivation Strategy toward Tin Halide Perovskite Solar Cells.

Sn halide perovskite solar cells (PKSCs) are the most promising competitors to conventional lead PKSCs. Nevertheless, defects at the surfaces and grain boundaries hinder the improvement of the PKSCs' performance. Liquid surface passivation on the perovskite layer is commonly used to decrease these defects. In the case of tin perovskite solar cells, the liquid passivation improved the open-circuit voltage ( V oc ). However, this decreased the short-circuit current density ( J sc ). We found that this J sc loss is brought about by the thickness loss after the liquid passivation because tin perovskite layers are partially soluble in common solvents, and the calculated impact pressure was up to 155.4 kPa. Here, we introduce new vapor passivation including solvent and passivation molecules and report efficiency enhancement without decreasing J sc . The vapor-passivated film showed longer time-resolved photoluminescence decay, smoother morphology, and lower defect densities. Most importantly, the vapor passivation method significantly enhanced the efficiency from 9.41 to 11.29% with J sc increasing from 22.82 to 24.05 mA·cm -2 . On the contrary, the corresponding liquid passivation method gave an efficiency of 10.90% with a decreased J sc from 22.82 to 22.38 mA·cm -2 . A commonly used and simple indent-free surface passivation strategy is proposed to enhance the efficiency and stability of PKSCs.