Cyclopentylethanamine Hydroiodide for Efficient and Stable 2D/3D Hybrid Perovskite Solar Cells

Abstract: The utilization of organic amine salt treatment for the formation of 2D/3D heterojunctions has emerged as a highly effective strategy for achieving both efficient and stable halide perovskite solar cells. The creation of a 2D phase necessitates specific structural attributes within the amine molecules. While previous reports have predominantly focused on amine molecules containing linear alkyl chains, benzene rings, and heterocyclic rings to fulfill these requirements, the exploration of amine molecules incorp… Show more

“…The SEM images display distinct morphologies of the perovskite films prepared from the two solvents. As seen in Figure a, the DMAc film showcases a uniform structure of accumulated polycrystal particles, while bright flakes attributed to lattice distortion during crystal growth were observed on the surface of the DMF perovskite in Figure d, indicating the presence of PbI 2 residue . The topological structure of the perovskite films is further investigated by AFM (Figure b,e), which reveals a smoother surface of the DMAc film with a root-mean-square roughness of 10.5 nm, much lower than the value of 13.6 nm for the DMF film.…”

Mechanism of Solvent Engineering for Controlling the Room-Temperature Crystallization Kinetics of MAPbI₃ Perovskite Polycrystals

“…The SEM images display distinct morphologies of the perovskite films prepared from the two solvents. As seen in Figure a, the DMAc film showcases a uniform structure of accumulated polycrystal particles, while bright flakes attributed to lattice distortion during crystal growth were observed on the surface of the DMF perovskite in Figure d, indicating the presence of PbI 2 residue . The topological structure of the perovskite films is further investigated by AFM (Figure b,e), which reveals a smoother surface of the DMAc film with a root-mean-square roughness of 10.5 nm, much lower than the value of 13.6 nm for the DMF film.…”

Mechanism of Solvent Engineering for Controlling the Room-Temperature Crystallization Kinetics of MAPbI₃ Perovskite Polycrystals