Fabrication and Performance Optimization of MgO-La3Si6N11∶Ce3+ Composite Phosphor-in-glass for Laser Lighting
Synthesis and Properties of Materials|更新时间:2024-08-06
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Fabrication and Performance Optimization of MgO-La3Si6N11∶Ce3+ Composite Phosphor-in-glass for Laser Lighting
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“The latest research has broken through the heat dissipation problem of fluorescent glass by introducing MgO particles, significantly improving the luminescence performance and uniformity, and achieving high-quality laser driven white light sources.”
Chinese Journal of LuminescenceVol. 45, Issue 7, Pages: 1123-1133(2024)
作者机构:
中国计量大学 光学与电子科技学院, 浙江 杭州 310018
作者简介:
基金信息:
National Natural Science Foundation of China(12274387;62075203;12104431);Key Research and Development Program of Zhejiang Province(2022C01127)
XU Tao,ZHU Qiangqiang,WANG Guojuan,et al.Fabrication and Performance Optimization of MgO-La3Si6N11∶Ce3+ Composite Phosphor-in-glass for Laser Lighting[J].Chinese Journal of Luminescence,2024,45(07):1123-1133.
XU Tao,ZHU Qiangqiang,WANG Guojuan,et al.Fabrication and Performance Optimization of MgO-La3Si6N11∶Ce3+ Composite Phosphor-in-glass for Laser Lighting[J].Chinese Journal of Luminescence,2024,45(07):1123-1133. DOI: 10.37188/CJL.20240094.
Fabrication and Performance Optimization of MgO-La3Si6N11∶Ce3+ Composite Phosphor-in-glass for Laser Lighting增强出版