荧光粉
材料科学
陶瓷
制作
固态
复合数
发光效率
激光器
光通量
光学
发光强度
光电子学
复合材料
工程物理
物理
光源
医学
替代医学
病理
图层(电子)
作者
Yanbin Wang,Ziqiu Cheng,Junhao Ye,Haohong Chen,Chen Hu,Zhenzhen Zhou,Yuyang Chen,Yudie Yang,D.Yu. Kosyanov,Jiang Li
标识
DOI:10.1016/j.optmat.2024.115715
摘要
Based on the "effective ionic radius match effect" and the "charge balance substitution rule of ions", mixed Ba2+, Al3+, Lu3+, and Ce3+ ions can be effectively regulated to a BaAl2O4-LuAG:Ce biphasic structure. The contribution of BaAl2O4 like as scattering centers can reduce overall reflection losses and enhance the light extraction efficiency of these composite phosphor ceramics (CPCs). In this work, a series of x wt.% BaAl2O4-LuAG:Ce (x = 0, 3, 5, 10, 15) CPCs were fabricated by vacuum sintering using co-precipitated composite powders. Homogenization at the atomic level of mixed Ba3+, Al3+, Lu3+, and Ce3+ ions in multiphase powders provides uniform distribution of BaAl2O4 and LuAG:Ce constituent phases in composite ceramics. The introduction of BaAl2O4 has an additive effect, which also consists in uniform aggregation of pores near their grains during sintering. It allows to adjust the size and amount of microstructural defects by varying the secondary phase content. Under the excitation of 10.8 W 450 nm LDs in a reflection mode, 3 wt% BaAl2O4-based CPCs show the optimum luminous flux of 2244 lm and a luminous efficiency of 208 lm·W−1. The obtained CPCs show a high application potential in solid-state laser lighting.
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