Investigation on the role of amines in the liquefaction and recrystallization process of MAPbI3perovskite

The amine-induced very fast liquefaction and recrystallization (L&R) process on organic-inorganic hybrid perovskites has been demonstrated to be an effective way to improve the quality of the as-deposited MAPbI(3)films and increase the feasibility of preparing large area perovskite solar cells (PSCs). Despite the effectiveness, the reaction mechanism of the L&R process is yet to be well understood. In this work, we investigate the fundamental influences of amines on the structural change of MAPbI(3)perovskite by studying the reaction between ammonia and a bulk MAPbI(3)crystal. By employing various techniques includingin situX-ray diffraction, Raman spectroscopy and Fourier transform infrared spectroscopy, we find that NH(3)effectively substitutes iodine in the perovskite crystal lattice, transforming the 3-dimensional (3D) lattice into a MAPb(NH3)(n)I(3)coordination complex-based system. The resulting coordination complex octahedral structures are only held together by weak forces of attraction, leading to the experimentally observed L&R process. First-principles calculations further confirm the feasibility of such L&R at room temperature. As a proof of concept, we demonstrated the use of liquefaction for substrate recycling of MAPbI(3)based solar cells with ammonia. Our results here provide deep insights for understanding the interaction mechanism, which can surely provide important guidance on improving the quality of perovskite films and related devices, as well as the recycling of toxic lead for long-term sustainability.