High-efficiency color-tunable ultralong room-temperature phosphorescence from organic–inorganic metal halides <i>via</i> synergistic inter/intramolecular interactions
Lei Zhou, Kailei Li, Yuanyuan Chang, Yuan Yao, Yuqi Peng, Ming Li, Rongxing He
Abstract
O exhibits the highest RTP efficiency of up to 56.56% with a long lifetime of up to 159 ms. It is found that multiple inter/intramolecular interactions and the strong heavy-atom effect of the rigid metal-halide hybrids can suppress molecular motion and promote the ISC process, resulting in highly stable and localized triplet excitons followed by highly efficient RTP. More crucially, multicolor-tunable fluorescence and RTP achieved by tuning the metal and halogen endow these materials with wide application prospects in the fields of multilevel information encryption and dynamic optical data storage. The findings promote the development of phosphorescent metal-halide hybrids for potential high-tech applications.