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单相CaLa(SiO)O:Ce、Tb、Sm荧光粉中Ce→Tb→Sm诱导的明亮白色发射的能量转移及其在白光发光二极管中的应用

Energy transfer for Ce → Tb → Sm induced bright white emission in single-phase CaLa(SiO)O:Ce, Tb, Sm phosphors and their application in white-light-emitting diodes.

作者信息

Yuan Bo, Gou Jiaxuan, Qi Chaochao, Kong Li, Qu Mingyang, Luan Guoyan, Zhang Xiangting

机构信息

College of Petrochemical Engineering, Jilin Institute of Chemical Technology Jilin 132000 P. R. China

College of Chemistry and Chemical Engineering, Henan Normal University Xinxiang 453007 P. R. China.

出版信息

RSC Adv. 2024 Feb 28;14(10):7061-7072. doi: 10.1039/d4ra00443d. eCollection 2024 Feb 21.

DOI:10.1039/d4ra00443d
PMID:38419672
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10900095/
Abstract

The emergence of phosphor-converted white-light-emitting diodes has crucial significance in the sustainable development of energy; hence, the evolution of phosphors with eminent luminescence and high stability is imperative. In this study, a tri-doped system composed of rare earth ions Ce, Tb, and Sm incorporated into a CaLa(SiO)O host is reported, and the energy transfer, tunable single-phase white emission, and favorable thermostability of the Ce-Tb-Sm system were explored. Rietveld refinement results coincided with the original model of the crystal structure, and a band gap energy of 4.612 eV calculated using density functional theory (DFT) demonstrated the system as an appropriate luminescent host with a wide energy gap. Furthermore, ET processes for Ce → Tb, Tb → Sm, and Ce → Tb → Sm were investigated steady-state photoluminescence and decay measurements. Besides, the activation energies of CLSO:3%Ce, 9%Tb, %Sm ( = 7, 9) were 0.205 eV and 0.223 eV, respectively, showing outstanding thermal quenching resistance. Devices made with LED beads containing CLSO:3%Ce, 9%Tb, %Sm ( = 7, 9) phosphors exhibited bright white light with CCT ≈ 3586 and 3307 K and Ra ≈ 81.0 and 78.5, respectively. This study demonstrates that energy transfer for Ce-Tb-Sm in a tri-doped system offers an interesting design prospect for promoting single-phase white emission phosphors.

摘要

磷光转换白光发光二极管的出现对能源的可持续发展具有至关重要的意义;因此,开发具有卓越发光性能和高稳定性的磷光体势在必行。在本研究中,报道了一种由稀土离子Ce、Tb和Sm掺入CaLa(SiO)O基质组成的三掺杂体系,并对Ce-Tb-Sm体系的能量转移、可调谐单相白光发射和良好的热稳定性进行了探索。Rietveld精修结果与晶体结构的原始模型相符,使用密度泛函理论(DFT)计算得到的带隙能量为4.612 eV,表明该体系是一种具有宽能隙的合适发光基质。此外,通过稳态光致发光和衰减测量研究了Ce→Tb、Tb→Sm和Ce→Tb→Sm的能量转移过程。此外,CLSO:3%Ce、9%Tb、%Sm(=7,9)的激活能分别为0.205 eV和0.223 eV,表现出优异的抗热猝灭性能。用含有CLSO:3%Ce、9%Tb、%Sm(=7,9)磷光体的LED珠制成的器件分别发出了CCT≈3586和3307 K、Ra≈81.0和78.5的明亮白光。本研究表明,三掺杂体系中Ce-Tb-Sm的能量转移为促进单相白光发射磷光体提供了一个有趣的设计前景。

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