钙钛矿(结构)
卤化物
荧光粉
材料科学
光电子学
加密
可扩展性
信息存储
光通信
发光
计算机科学
纳米技术
光致发光
作者
Yuanhui Chen,Yue Zhai,Wenkai Sun,X Y Wang,Shaonan Li,Qiangqiang Zhu,Yubin Kang,Juan Kang,Le Wang
标识
DOI:10.1021/acssuschemeng.5c14045
摘要
Developing environmentally benign luminescent materials with high emission efficiency, recyclability, and dynamically tunable optical properties is crucial for sustainable optical information encryption. However, achieving green synthesis, scalable production, and stimulus-responsive optical tunability simultaneously remains challenging. Herein, Sb-doped rare-earth halide perovskite phosphors are rapidly synthesized via a low-energy aqueous-phase evaporation-crystallization strategy, avoiding organic solvents and corrosive reagents, and enabling gram-scale production. The obtained Cs 2 NaYCl 6:Sb, Cs 2 KYCl 6:Sb, Rb 3 YCl 6:Sb and Rb 2 ScCl 5 ·H 2 O:Sb phosphors exhibit multicolor emission from blue to orange with photoluminescence quantum yields (PLQYs) exceeding 80%. They feature three-dimensional or zero-dimensional crystal structures with micrometer-scale irregular morphology, along with excellent long-term UV and thermal stability. Benefiting from reversible dissolution-recrystallization behavior in water, the phosphors show outstanding recyclability, retaining around 80% PLQY and nearly unchanged decay dynamics after 15 cycles. In addition, structure-dependent solvent-responsive luminescence is observed, where DMSO treatment followed by drying induces distinct emission transformations. By integrating multicolor emission with stimulus-triggered optical transitions, a multilevel optical information encryption and decryption system with triple dynamic encryption is demonstrated, highlighting the potential of these materials for sustainable optical security and information storage applications.
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