荧光粉
存水弯(水管)
材料科学
多路复用
波长
光电子学
光学
纳米技术
计算机科学
电信
物理
气象学
作者
Wenna Gao,Liangshen Wang,Yuqiang Wang,Wei Xu,Xiangyu Zhang,Dangli Gao
标识
DOI:10.1002/adom.202501517
摘要
Abstract Precise manipulation of luminescence modality and chromatic output in persistent luminescence (PersL) materials is critical for information storage and advanced anti‐counterfeiting. Here, a multimodal GdNbO 4 :Bi 3+ ,Tb 3+ phosphor with the quintuplet luminescence (including photoluminescence, PersL, photo‐stimulated luminescence (PSL), photo‐stimulated PersL, and thermo‐stimulated luminescence (TSL)) and spatiotemporally tunable colorimetry is reported. The PersL mechanism follows the localized model is proposed based on monitored wavelength and temperature‐dependent thermoluminescence curves. While the dynamic PersL output color can be attributed to energy transfer and different luminescent decay rates. For the first time, the mechanisms of PSL and TSL are clarified, which are attributed to the release of trapped carriers corresponding to optical and acoustic transitions, respectively. These multimodal phosphors are used for information storage and sophisticated anti‐counterfeiting. This study here offers profound insights into the mechanism of multimodal luminescence, providing theoretical guidance and practical examples for the design, synthesis, and application of PersL materials.
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