Hu Wei, Bao Yunwen, Zhou Yiqing, Zhang Jilin, Lian Shixun, Qiu Zhongxian
Key Laboratory of Light Energy Conversion Materials of Hunan Province College, Key Laboratory of Chemical Biology & Traditional Chinese Medicine Research (Ministry of Education), College of Chemistry and Chemical Engineering, Hunan Normal University, Changsha 410081, China.
Inorg Chem. 2024 Sep 23;63(38):17740-17746. doi: 10.1021/acs.inorgchem.4c02570. Epub 2024 Sep 12.
Regulating defect distribution in inorganic phosphors is paramount for realizing multimode dual-field optical signals for high security level identification but remains an ongoing challenge. Here, we propose a strategy of equivalent anion doping and nonequivalent cation doping to successfully regulate the trap distribution and density in Ba(PO)Cl:F,Eu,Ce (BPCF-AG) phosphors. Due to the coexistence of shallow and deep traps for different photon processes, the BPCF-AG exhibits simultaneous photochromism in a bright field and tetramode luminescence (photoluminescence, afterglow, 980 nm photostimulated luminescence, and 650/532 nm photostimulated afterglow) in a dark field. The trap roles responsible for versatile optical behaviors are investigated by thermoluminescence curves, and a reasonable mechanism is proposed. In addition, we design a series of demonstrations for security identification and information encryption based on the dual-field multimode optical signals of BPCF-AG to illustrate its potential application scenarios.
调控无机磷光体中的缺陷分布对于实现用于高安全级识别的多模双场光信号至关重要,但仍然是一个持续存在的挑战。在此,我们提出一种等效阴离子掺杂和非等效阳离子掺杂策略,以成功调控Ba(PO)Cl:F,Eu,Ce(BPCF-AG)磷光体中的陷阱分布和密度。由于不同光子过程中浅陷阱和深陷阱的共存,BPCF-AG在亮场中表现出同时光致变色,在暗场中表现出四模发光(光致发光、余辉、980 nm光激发发光和650/532 nm光激发余辉)。通过热释光曲线研究了负责多功能光学行为的陷阱作用,并提出了合理的机制。此外,我们基于BPCF-AG的双场多模光信号设计了一系列安全识别和信息加密演示,以说明其潜在应用场景。
