Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
7951933 | Journal of Materials Science & Technology | 2018 | 7 Pages |
Abstract
To date, it is still a great challenge for highly efficient perovskite devices to realize the high quality perovskite films with high purity, high coverage ratio and good crystallization by two-step scalable solution method. In this study, a series PbI2 films with tunable micro-architecture of PbI2 crystals are prepared via solution processable crystal engineering. The perovskite film, prepared by optimized pit spacing in gas pumped PbI2 film at 1000â¯Pa, shows the highest film quality, including no residual PbI2 phase, compact morphology, and improved photoluminescence intensity. A transformation kinetics shows that the pit spacing strongly influences both the mass transfer and the sequential intercalation reaction between CH3NH3I and PbI2 crystals, which ultimately determines the full reaction state of the perovskite film. The perovskite solar cells assembled by the perovskite film show both high power-conversion efficiency and good reproducibility of photovoltaic performance due to the restrained charge recombination arising from the high quality perovskite film.
Keywords
Related Topics
Physical Sciences and Engineering
Materials Science
Materials Chemistry
Authors
Yan Li, Bin Ding, Guan-Jun Yang, Chang-Jiu Li, Cheng-Xin Li,