显色指数
材料科学
二极管
光电子学
光致发光
卤化物
热稳定性
白炽灯
铜
色温
激光器
高颜色
白光
电致发光
渲染(计算机图形)
发光二极管
荧光粉
光学
离子键合
热阻
激光二极管
热的
有色的
作者
Jialu Liu,Haoran Zhang,Dingshuo Zhang,Qiaopeng Cui,Kehao Wang,Chao Fan,Haiping He,Zhizhen Ye,Xingliang Dai
标识
DOI:10.1002/lpor.202502819
摘要
ABSTRACT White light‐emitting diodes are regarded as a substitute for traditional incandescent lights, becoming promising solid‐state light sources. However, the insufficiency of rare earth elements, environmental problems caused by element mining, and an inadequate color rendering index for high‐saturation colors restrict long‐term application. Herein, a kind of sunlike full‐spectrum white light‐emitting diodes is successfully prepared, consisting of two complementary‐color low‐toxicity copper‐based materials, which demonstrates an excellent color rendering index. Two types of eco‐friendly hybrid copper halide ionic crystals with broadband emission are synthesized via cooling crystallization, exhibiting near unity photoluminescence quantum yields. Different thermal‐assisted self‐trapped exciton emission mechanisms result in distinctive temperature‐dependent photoluminescence, both of which possess robust resistance against thermal quenching and good stability under UV laser irradiation. The white light‐emitting diode devices were fabricated with an appropriate ratio of two kinds of phosphors, which show splendid rendering index, R a of 93, and R 9 of 86 simultaneously, and operational half‐lifetime of 140 h under a continuous 250 mA current mode. The results provide an approach for achieving healthy lighting using environmentally friendly materials.
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