发光
材料科学
存水弯(水管)
纳米技术
PSL公司
荧光粉
电荷(物理)
持续发光
表征(材料科学)
光电子学
载流子
能量(信号处理)
工程物理
光学材料
新能源
高能
储能
光致发光
作者
F.S. Wen,Huihong Li,Datao Tu,Wei Lian,Shiqi Yu,Meiqi Zhang,Qi Liu,Ping'an Ma,Xueyuan CHEN
标识
DOI:10.1002/adfm.202529409
摘要
ABSTRACT Lanthanide‐doped photo‐stimulated luminescence (PSL) phosphors, as one of the most prominent electron‐trapping materials, have emerged as a highly attractive class of luminescent materials in recent decades. These phosphors exhibit unique optical properties resulting from their ability to store charge carriers and subsequently release energy upon photo‐stimulation. Such distinctive features of energy storage and controllable release have driven significant interest in lanthanide‐doped PSL phosphors, owing to their vast potential in diverse applications such as optical data storage, security encoding, and bioimaging. Recent advancements in synthesis methodologies and characterization tools have significantly deepened the understanding of the photophysical and photochemical behaviors of PSL phosphors, thus expanding their application scope. Consequently, there is an urgent need to update the knowledge in this rapidly evolving field. This review aims to highlight the latest achievements in the luminescence mechanisms, trap manipulation strategies, and emerging applications of lanthanide‐doped PSL phosphors. Furthermore, we discuss the main challenges and propose future research directions for this dynamic domain.
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