Three‐Dimensional Patterned Phosphor‐In‐Glass Films With Enhanced Thermal‐Optical Performances Toward Advanced Laser Lighting

材料科学 光电子学 激光器 光通量 荧光粉 转换器 光学 陶瓷 发光效率 白光 全彩 数字光处理 显色指数 反射率 色温 烧结 蓝光 图层(电子) 激光灯 选择性激光烧结 紫外线 色差 光强度
作者
Jinkui Zhao,Meiqi Ye,Hongjin Zhang,Wei Cheng,Yang Peng,Daqin Chen
出处
期刊:Laser & Photonics Reviews [Wiley]
标识
DOI:10.1002/lpor.71166
摘要

ABSTRACT Laser‐excited phosphor is a promising technology for new‐generation laser lighting. However, traditional plain‐like inorganic color converters exhibit limited thermal‐optical performance. Herein, novel phosphor‐in‐glass film (PiGF) converters based on 3D‐patterned Al 2 O 3 ceramic substrate, including hill‐like (PiGF‐H) and valley‐like (PiGF‐V) configurations, were constructed. Conformal PiGF preparation was achieved by regulating the fluidity of La 3 Si 6 N 11 :Ce 3+ phosphor‐glass paste during printing and sintering on substrates. The thermal‐optical performance was comprehensively evaluated and compared with conventional plain‐like PiGF (PiGF‐P). The inclined side walls of the 3D‐patterned surface promote multiple reflections and enhance the light excitation of the blue laser, enabling the PiGF‐H to substantially outperform the PiGF‐V and the PiGF‐P under 6–42 W blue laser excitation. The PiGF‐H achieves a high luminous flux of 4123 lm@36 W, significantly exceeding the PiGF‐V (2166@21 W) and the PiGF‐P (1701@18 W). Moreover, the PiGF‐H has the highest luminous efficacy with minimal attenuation, an optimal normalized spectral intensity distribution, and an appropriate white light with a correlated color temperature (CCT) of 4874 K. The operating temperature of PiGF‐H (240°C) is considerably lower than that of PiGF‐V (335°C) and PiGF‐P (359°C). This work provides valuable guidance for enhancing thermal‐optical characteristics of color converters in advanced laser lighting applications.
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