荧光粉
材料科学
发光效率
量子效率
激光器
光电子学
亮度
能量转换效率
LED灯
发光二极管
光学
二极管
复合材料
物理
图层(电子)
作者
Liansheng Wang,Haisheng Yang,Yujie Zhang,Yueyuan Liang,Jiangdan Zhang,Enrou Mei,Fucai Xu,Jiangqi Long,Ping Yu,Weidong Xiang
标识
DOI:10.1016/j.jallcom.2021.161882
摘要
High-power, high-brightness laser lighting technology put forward new requirements for the service stability of color conversion materials. Phosphor-in-glass materials (PiGs) have emerged with their unique advantages of withstanding high power excitation density. High luminous efficiency (LE) and high internal quantum efficiency (IQE) LuAG:Ce PiG is still an urgent demand for high power laser lighting conversion materials. In this paper, LuAG:Ce PiGs was successfully prepared by careful design of glass matrix composition. The maximum internal quantum efficiency of LuAG:Ce PiG is 93.8%. The conversion efficiency (CE) of LuAG:Ce PiG from blue to green light is increased to 56.3%. The luminous efficiency (LE) even reaches 225 lm W−1, which is the best performance of LuAG:Ce in LD lighting so far. These results show that this work has taken a big step in improving the performance of LuAG:Ce Green converter and will greatly promote the development of LD lighting.
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