Near-Infrared Emission Properties and LED Applications of Y2Ti2O7:Cr3+/Nd3+ Phosphors Improved by Doping with Ce3+ Ions

IF 0.7 4区 化学 Q4 CHEMISTRY, PHYSICAL Russian Journal of Physical Chemistry A Pub Date : 2024-09-11 DOI:10.1134/S0036024424701565
Shanshan Cong, Hongquan Yu, Xiao Gao, Zhanwen Han, Baojiu Chen, Jiashi Sun, Xiangping Li
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Abstract

Near infrared (NIR) Y2Ti2O7:Ce3+/Cr3+/Nd3+ phosphors were synthesized using a solid-state reaction technique. NIR luminescent performance of Y2Ti2O7:Cr3+/Nd3+ phosphors was improved by doping with Ce3+ ions. The emission intensity of Y2T2O7:Cr3+/Nd3+/Ce3+ phosphors is significantly higher than that of Y2Ti2O7:Cr3+/Nd3+ phosphors. The external quantum efficiency and internal quantum efficiency of Y2Ti2O7:0.5% Cr3+/0.7% Nd3+/1.5% Ce3+ are 16 and 22.8%, respectively. The luminescent mechanisms of the Y2Ti2O7:Cr3+/Nd3+ and Y2T2O7:Cr3+/Nd3+/Ce3+ phosphors were investigated. As a result, the effective energy transfer process from Cr3+ to Nd3+ ions exists in Y2Ti2O7:Cr3+/Nd3+ phosphors, while the effective energy transfer process from Ce3+ to Cr3+ and Nd3+ ions exists in Y2T2O7:Cr3+/Nd3+/Ce3+ phosphors. NIR emission intensities of LED devices assembled with Y2Ti2O7:0.5% Cr3+/0.7% Nd3+/1.5% Ce3+ phosphors are better than those of LED devices assembled with Y2Ti2O7:0.5% Cr3+/0.7% Nd3+ phosphors at different work currents. In addition, the temperature-sensitive behavior of Y2Ti2O7:Cr3+/Nd3+ phosphors was also studied. Their LIR and Sa values monotonically increase in the temperature range of 303–393 K. The maximum Sa values of Y2Ti2O7:0.5% Cr3+/0.5% Nd3+, Y2Ti2O7:0.5% Cr3+/0.7% Nd3+, Y2Ti2O7:0.5% Cr3+/1.0% Nd3+, Y2Ti2O7:0.5% Cr3+/2.0% Nd3+ samples are 0.79 × 10–2, 0.88 × 10–2, 1.24 × 10–4, and 2.53 × 10–3 K–1, respectively.

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通过掺杂 Ce3+ 离子改进 Y2Ti2O7:Cr3+/Nd3+ 磷光体的近红外发射特性和 LED 应用
摘要 利用固态反应技术合成了近红外(NIR)Y2Ti2O7:Ce3+/Cr3+/Nd3+荧光粉。通过掺杂 Ce3+ 离子提高了 Y2Ti2O7:Cr3+/Nd3+ 荧光粉的近红外发光性能。Y2Ti2O7:Cr3+/Nd3+/Ce3+ 荧光粉的发射强度明显高于 Y2Ti2O7:Cr3+/Nd3+ 荧光粉。Y2Ti2O7:0.5% Cr3+/0.7% Nd3+/1.5% Ce3+ 的外量子效率和内量子效率分别为 16% 和 22.8%。研究了 Y2Ti2O7:Cr3+/Nd3+ 和 Y2Ti2O7:Cr3+/Nd3+/Ce3+ 荧光粉的发光机制。结果表明,在 Y2Ti2O7:Cr3+/Nd3+ 荧光粉中存在从 Cr3+ 到 Nd3+ 离子的有效能量转移过程,而在 Y2Ti2O7:Cr3+/Nd3+/Ce3+ 荧光粉中存在从 Ce3+ 到 Cr3+ 和 Nd3+ 离子的有效能量转移过程。在不同工作电流下,用 Y2Ti2O7:0.5% Cr3+/0.7% Nd3+/1.5% Ce3+ 荧光粉组装的 LED 器件的近红外发射强度优于用 Y2Ti2O7:0.5% Cr3+/0.7% Nd3+ 荧光粉组装的 LED 器件。此外,还研究了 Y2Ti2O7:Cr3+/Nd3+ 荧光粉的温度敏感性。Y2Ti2O7:0.5% Cr3+/0.5% Nd3+、Y2Ti2O7:0.5% Cr3+/0.7% Nd3+、Y2Ti2O7:0.5% Cr3+/1.0% Nd3+、Y2Ti2O7:0.5% Cr3+/2.0% Nd3+样品的最大 Sa 值分别为 0.79 × 10-2、0.88 × 10-2、1.24 × 10-4 和 2.53 × 10-3 K-1。
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来源期刊
CiteScore
1.20
自引率
14.30%
发文量
376
审稿时长
5.1 months
期刊介绍: Russian Journal of Physical Chemistry A. Focus on Chemistry (Zhurnal Fizicheskoi Khimii), founded in 1930, offers a comprehensive review of theoretical and experimental research from the Russian Academy of Sciences, leading research and academic centers from Russia and from all over the world. Articles are devoted to chemical thermodynamics and thermochemistry, biophysical chemistry, photochemistry and magnetochemistry, materials structure, quantum chemistry, physical chemistry of nanomaterials and solutions, surface phenomena and adsorption, and methods and techniques of physicochemical studies.
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