A ratiometric optical thermometer with dual-color emission based on Eu2+-doped CsCu2I3 microcrystals

IF 5.2 1区化学 Q1 CHEMISTRY, APPLIED

Journal of Rare Earths Pub Date : 2024-08-01 DOI:10.1016/j.jre.2023.07.016

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引用次数: 0

Abstract

With the increasing demand for non-contact fluorescence intensity ratio-based optical thermometry, novel phosphor materials with high-efficiency, dual-emitting centers, and differentiable temperature sensitivity are highly desired. In this work, rare earth Eu²⁺ ions were incorporated into CsCu₂I₃ microcrystals by solid-state reaction. Under a single UV excitation, the as-synthesized samples exhibit two emissions: 452 nm blue emission from the 5d→4f transition of Eu²⁺ and 582 nm yellow emission from self-trapped exciton emission of CsCu₂I₃. The photoluminescence quantum yield reaches to 50%. The dual-band emission of Eu²⁺-doped CsCu₂I₃ shows different temperature responses in the range of 260–360 K. Based on fluorescence intensity ratio technology, the maximum absolute sensitivity and relative sensitivity are 0.091 K^–1 (at 360 K) and 2.60%/K (at 260 K), respectively. These results suggest that Eu²⁺-doped CsCu₂I₃ could be a good candidate for highly sensitive optical thermometer.

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基于Eu2+掺杂CsCu2I3微晶的双色发射比率光学温度计

随着对基于非接触荧光强度比的光学温度测量技术的需求日益增长，人们对具有高效率、双发光中心和可变温度灵敏度的新型荧光粉材料的需求非常迫切。在这项研究中，稀土 Eu2+ 离子通过固态反应被加入到 CsCu2I3 微晶中。在单一紫外线激发下，合成样品会发出两种光：452 纳米波长的蓝色发射来自 Eu2+ 的 5d→4f 转变，582 纳米波长的黄色发射来自 CsCu2I3 的自俘获激子发射。光致发光量子产率达到 50%。基于荧光强度比技术，最大绝对灵敏度和相对灵敏度分别为 0.091 K-1（360 K 时）和 2.60%/K（260 K 时）。这些结果表明，掺杂 Eu2+ 的 CsCu2I3 是高灵敏度光学温度计的理想候选材料。

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来源期刊

Journal of Rare Earths 化学-应用化学

CiteScore

8.70

自引率

14.30%

发文量

374

审稿时长

1.7 months

期刊介绍： The Journal of Rare Earths reports studies on the 17 rare earth elements. It is a unique English-language learned journal that publishes works on various aspects of basic theory and applied science in the field of rare earths (RE). The journal accepts original high-quality original research papers and review articles with inventive content, and complete experimental data. It represents high academic standards and new progress in the RE field. Due to the advantage of abundant RE resources of China, the research on RE develops very actively, and papers on the latest progress in this field emerge every year. It is not only an important resource in which technicians publish and obtain their latest research results on RE, but also an important way of reflecting the updated progress in RE research field. The Journal of Rare Earths covers all research and application of RE rare earths including spectroscopy, luminescence and phosphors, rare earth catalysis, magnetism and magnetic materials, advanced rare earth materials, RE chemistry & hydrometallurgy, RE metallography & pyrometallurgy, RE new materials, RE solid state physics & solid state chemistry, rare earth applications, RE analysis & test, RE geology & ore dressing, etc.