Vacuum ultraviolet photoluminescence of NaMgF3:Sm and NaMgF3:Sm,Ce: energy levels of the lanthanides in NaMgF3:Ln compounds

IF 2.4 3区化学 Q3 CHEMISTRY, ANALYTICAL

Methods and Applications in Fluorescence Pub Date : 2022-05-17 DOI:10.1088/2050-6120/ac70aa

J. Schuyt, G. Williams, K. Shinohara, T. Shimizu, K. Yamanoi, M. Cadatal-Raduban

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引用次数: 4

Abstract

The luminescence properties of NaMgF3:Sm and NaMgF3:Ce,Sm were studied in the vacuum ultraviolet spectral region. Excitation bands corresponding to the charge transfer processes F− → Sm3+, O2− → Sm3+, and O2− → Ce3+, and the energy transfer processes Ce3+ → Sm3+ and O2− → Sm3+, were observed. The energies of the Sm3+ charge transfer transitions and the crystal field split Ce3+ 4f 05d 1 transitions were used to construct a complete host referred binding energy diagram for the series of lanthanide-doped NaMgF3:Ln compounds. We demonstrate that the optical and luminescence properties predicted by the binding energy diagram are in good agreement with those predicted by the binding energy diagram constructed via the alternative impurity-informed method, and all available experimental data regarding the NaMgF3:Ln compounds. We demonstrate that NaMgF3:Ln compounds are model systems for the study of charge trapping phenomena and divalent lanthanide luminescence. Ultimately, we validate that the impurity-informed method can be used to establish the energy levels of lanthanides in fluoride systems.

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NaMgF3:Ln化合物中镧系元素的真空紫外光致发光研究

研究了NaMgF3:Sm和NaMgF3:Ce，Sm在真空紫外光谱区的发光特性。与电荷转移过程F−相对应的激发带→ Sm3+、O2−→ Sm3+和O2−→ Ce3+和能量转移过程Ce3+→ Sm3+和O2−→ Sm3+。利用Sm3+电荷转移跃迁和晶体场分裂Ce3+4f05d1跃迁的能量，构建了一系列镧系掺杂NaMgF3:Ln化合物的完整的主体结合能图。我们证明了结合能图预测的光学和发光性质与通过替代杂质知情方法构建的结合能图以及关于NaMgF3:Ln化合物的所有可用实验数据预测的光学性质和发光性质非常一致。我们证明了NaMgF3:Ln化合物是研究电荷捕获现象和二价镧系元素发光的模型体系。最终，我们验证了杂质知情方法可以用于确定氟化物系统中镧系元素的能级。

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来源期刊

Methods and Applications in Fluorescence CHEMISTRY, ANALYTICALCHEMISTRY, PHYSICAL&n-CHEMISTRY, PHYSICAL

CiteScore

6.20

自引率

3.10%

发文量

期刊介绍： Methods and Applications in Fluorescence focuses on new developments in fluorescence spectroscopy, imaging, microscopy, fluorescent probes, labels and (nano)materials. It will feature both methods and advanced (bio)applications and accepts original research articles, reviews and technical notes.