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A crystal capping layer for formation of black-phase FAPbI 3 perovskite in humid air.

Yu ZouWenjin YuHaoqing GuoQizhi LiXiangdong LiLiang LiYueli LiuHantao WangZhenyu TangShuang YangYanrun ChenBo QuYunan GaoZhijian ChenShufeng WangDongdong ZhangYihua ChenQi ChenShaik Mohammed ZakeeruddinYing Ying PengHuanping ZhouQihuang GongMingyang WeiMichael GrätzelLixin Xiao
Published in: Science (New York, N.Y.) (2024)
Black-phase formamidinium lead iodide (α-FAPbI 3 ) perovskites are the desired phase for photovoltaic applications, but water can trigger formation of photoinactive impurity phases such as δ-FAPbI 3 . We show that the classic solvent system for perovskite fabrication exacerbates this reproducibility challenge. The conventional coordinative solvent dimethyl sulfoxide (DMSO) promoted δ-FAPbI 3 formation under high relative humidity (RH) conditions because of its hygroscopic nature. We introduced chlorine-containing organic molecules to form a capping layer that blocked moisture penetration while preserving DMSO-based complexes to regulate crystal growth. We report power conversion efficiencies of >24.5% for perovskite solar cells fabricated across an RH range of 20 to 60%, and 23.4% at 80% RH. The unencapsulated device retained 96% of its initial performance in air (with 40 to 60% RH) after 500-hour maximum power point operation.
Keyphrases
  • solar cells
  • perovskite solar cells
  • room temperature
  • ionic liquid
  • blood pressure
  • high efficiency