Laser‐Triggered Vapor‐Phase Anion Exchange on All‐Inorganic Perovskites for Multicolor Patterns and Microfabrications
Yuhang Sheng, Yanfang Zha, Xuying Feng, Fangjian Xing, Yunsong Di, Cihui Liu, Xiaowei Zhang, Zhixing Gan
Abstract
Abstract Anion exchange reaction is a facile postsynthesis approach to modulate the bandgaps of perovskites to meet the demands in full visible spectrum. However, conventional anion exchanges are usually conducted in solutions, limiting their applications in fabricating high‐quality blue‐emitting perovskites and multicolor fluorescent patterns. Herein, a laser‐triggered vapor‐phase anion exchange (LTVAE) method is developed to convert CsPbBr 3 perovskites with different morphologies (nanocrystal films/solution, microcrystals, and microplatelets) into CsPb(Br x Cl 1‐ x ) 3 and CsPb(Br x I 1‐ x ) 3 perovskites. Thus, the green fluorescence is converted into blue and red fluorescence. Moreover, the deep‐blue fluorescence obtained by LTVAE shows a high quantum yield (QY) of 67.2%. Based on the mask‐assistant LTVAE, multicolor fluorescent patterns are fabricated, which are very significant for anticounterfeit and multicolor displays. Furthermore, a polymer‐assistant LTVAE method is developed to improve the stability of the multicolor fluorescent patterns. More importantly, micro‐heterojunctions with two different fluorescent colors are successfully constructed on a single CsPbBr 3 microplatelet, which paves the way for microfabrications.