用于辐射标记和追踪的 CaF2:Gd3+ 的 UVB 持久发光

IF 8 2区材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Advanced Optical Materials Pub Date : 2024-10-03 DOI:10.1002/adom.202401320

Wenting Zhao, Leipeng Li, Tao Li, Jianrong Qiu, Yanmin Yang

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引用次数: 0

摘要

过去二十年来，持久发光（PersL）因其在应急指示、节能照明、生物医学成像和动态防伪等领域的潜在应用而备受关注。然而，迄今报道的 PersL 波长通常属于可见光和近红外波段。制备具有紫外 PersL 的先进光学材料仍是一个难题。本文对 CaF2:Gd3+ 的 PersL 特性进行了系统研究。暴露于 X 射线辐射后，CaF2:Gd3+ 会继续发射紫外线-B（UVB）PersL，峰值在 313 nm 处，与 Gd3+ 的 6P7/2 → 8S7/2 转变相对应。通过 X 射线光电子能谱测量，排除了价变模型对 CaF2:Gd3+ UVB PersL 的解释。最后，研究证明这种 CaF2:Gd3+ 的 UVB PersL 可用于静态标记和动态追踪。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

UVB Persistent Luminescence of CaF2:Gd3+ for Radiation Labeling and Tracing

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UVB Persistent Luminescence of CaF2:Gd3+ for Radiation Labeling and Tracing

Persistent luminescence (PersL) has attracted considerable attention in the last two decades for its potential applications in the fields of emergency indicators, energy-saving lighting, biomedical imaging, and dynamic anti-counterfeiting. However, the wavelengths of PersL reported so far usually fall into the visible and near-infrared range. The preparation of advanced optical materials bearing UV PersL remains elusive. Here the PersL characteristic of CaF₂:Gd³⁺ is systematically studied. After exposure to X-ray radiation, CaF₂:Gd³⁺ continues to emit UV-B (UVB) PersL peaking at 313 nm, corresponding to the ⁶P_7/2 → ⁸S_7/2 transition of Gd³⁺. By virtue of X-ray photoelectron spectroscopy measurements, the valence variation model is excluded to explain the UVB PersL of CaF₂:Gd³⁺. Finally, it is demonstrated that such UVB PersL of CaF₂:Gd³⁺ can be used for static labeling and dynamic tracing.

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来源期刊

Advanced Optical Materials MATERIALS SCIENCE, MULTIDISCIPLINARY-OPTICS

CiteScore

13.70

自引率

6.70%

发文量

883

审稿时长

1.5 months

期刊介绍： Advanced Optical Materials, part of the esteemed Advanced portfolio, is a unique materials science journal concentrating on all facets of light-matter interactions. For over a decade, it has been the preferred optical materials journal for significant discoveries in photonics, plasmonics, metamaterials, and more. The Advanced portfolio from Wiley is a collection of globally respected, high-impact journals that disseminate the best science from established and emerging researchers, aiding them in fulfilling their mission and amplifying the reach of their scientific discoveries.