材料科学
光通量
光电子学
微透镜
光学
蓝宝石
发光二极管
镜头(地质)
准直光
LED灯
电润湿
激光器
二极管
热传导
焊接
基质(水族馆)
荧光粉
色温
热流密度
电子设备和系统的热管理
转换器
平面的
热的
发光效率
散热器(发动机冷却)
梁(结构)
分束器
作者
Hongjin Zhang,Jiuzhou Zhao,Zikang Yu,Shisheng Lin,Lei Ma,Jiangnan Dai,Mingxiang Chen,Yang Peng,Daqin Chen
标识
DOI:10.1002/lpor.202503165
摘要
ABSTRACT A key obstacle in advancing high‐brightness lighting technology is the creation of laser‐driven color‐converting materials capable of integrated enhancement of optical and thermal performance. Herein, an omnidirectionally encapsulated color converter of phosphor‐in‐glass film (PiGF) was proposed, in which a hemispherical sapphire lens was integrated on the top surface of a BN‐in‐glass (BiG) layer‐surrounded PiGF coated on a sapphire substrate (L@PiGF@S). The L@PiGF@S converters with different YAG contents were prepared by thermocompression sintering, which display enhanced forward light extraction from lens integration and efficient heat dissipation from an omnidirectional heat conduction structure. This remarkable opto‐thermal cooperative effect enables an ultra‐high luminous efficacy (LE) of 268 lm/W and a maximum luminous flux (LF) of 6129 lm@36 W·mm −2 for the laser‐driven L@PiGF@S, which is 3 times of the common laser‐driven PiGF@S of 2022 lm@12 W·mm −2 . Importantly, the L@PiGF@S can produce a collimating and uniform white laser irradiation up to 1000 m, addressing the tough issues of large beam divergence and poor color distribution for the common PiGF@S. The developed L@PiGF@S converter demonstrates superior opto‐thermal performances, showing a great potential for a high‐brightness laser‐driven lighting source.
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