In ChemSusChem
Fully inorganic perovskite cesium lead triiodide (CsPbI3) has garnered much attention from researcher for photovoltaic application because of its excellent thermal stability compared with the inorganic-organic hybrid counterparts, along with the potential to serve as the top cell in tandem devices with silicon solar cell. However, the active α-phase cubic CsPbI3 spontaneously tends to transform into the non-perovskite δ-CsPbI3 when subjected to ambient condition. This work proposes an effective method to fabricate high-quality and stable α-phase cubic CsPbI3 films via phosphorus pentachloride (PCl5) additive, in which the PCl5 acts as colloidal binder for modulation crystallization dynamics of perovskites, resulting in high-quality film and a significantly suppressed phase transition. Finally, highly stable CsPbI3 perovskite solar cells can be achieved with a power conversion efficiency up to 17.85%, and long-term stability in N2 filled glove box.
Yang Wanpeng, Yu Haixuan, Dai Letian, Zhang Zhiguo, Gu Anjie, Ban Huaxia, Sun Qiang, Chen Shuangyin, Shen Yan, Wang Mingkui
2022-Dec-05
Inorganic perovskite, colloidal binder, film quality, phase stability, solar cell
