梯度缺陷介导荧光粉的负热猝灭

IF 20.6 1区 物理与天体物理 Q1 OPTICS
Mingxue Deng, Xingzhong Cao, Yangmin Tang, Zhenzhen Zhou, Lijia Liu, Xiaofeng Liu, Peng Zhang, Lo-Yueh Chang, H. Ruan, Xinjun Guo, Jiacheng Wang, Qian Liu
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引用次数: 1

摘要

摘要发光材料经常遭受热猝灭(TQ),限制了其在高达473 K的高温下继续应用。缺陷水平的形成可以抑制TQ,但在如此宽的温度范围内合理合成和深入理解多种缺陷调节的发光材料仍然是一个挑战。本文通过引入VTa5−、TbLi2+和(VTaTbLi)3−的梯度缺陷,制备了负热猝灭(NTQ)荧光粉LiTaO3: Tb3 +。其光致发光随温度升高而明显增强,在373 ~ 473 K时缓慢增强。机理研究表明,不同捕获深度的梯度缺陷可以作为能量缓冲层,有效捕获载流子。在热扰动下,储存的载流子可以在连续的宽温度区域内陆续迁移到活化剂上,补偿TQ,增强发光发射。本研究启动了多缺陷NTQ荧光粉的合成,用于温度依赖的应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Gradient defects mediate negative thermal quenching in phosphors
Abstract. Luminescent materials often suffer from thermal quenching (TQ), limiting the continuation of their applications under high temperatures up to 473 K. The formation of defect levels could suppress TQ, but rational synthesis and deep understanding of multiple defects-regulated luminescent materials working in such a wide temperature range still remain challenging. Here, we prepare a negative thermal quenching (NTQ) phosphor LiTaO3  :  Tb3  +   by introducing gradient defects VTa5−,  TbLi2+, and   (  VTaTbLi)3  −   as identified by advanced experimental and theoretical studies. Its photoluminescence significantly becomes intense with rising temperatures and then slowly increases at 373 to 473 K. The mechanism studies reveal that gradient defects with varied trapping depths could act as energy buffer layers to effectively capture the carriers. Under thermal disturbance, the stored carriers could successively migrate to the activators in consecutive and wide temperature zones, compensating for TQ to enhance luminescence emission. This study initiates the synthesis of multi-defect NTQ phosphors for temperature-dependent applications.
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来源期刊
CiteScore
22.70
自引率
1.20%
发文量
49
审稿时长
18 weeks
期刊介绍: Advanced Photonics is a highly selective, open-access, international journal that publishes innovative research in all areas of optics and photonics, including fundamental and applied research. The journal publishes top-quality original papers, letters, and review articles, reflecting significant advances and breakthroughs in theoretical and experimental research and novel applications with considerable potential. The journal seeks high-quality, high-impact articles across the entire spectrum of optics, photonics, and related fields with specific emphasis on the following acceptance criteria: -New concepts in terms of fundamental research with great impact and significance -State-of-the-art technologies in terms of novel methods for important applications -Reviews of recent major advances and discoveries and state-of-the-art benchmarking. The journal also publishes news and commentaries highlighting scientific and technological discoveries, breakthroughs, and achievements in optics, photonics, and related fields.
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