磷光
材料科学
光电子学
二极管
量子点
三聚氰酸
色温
激子
紫外线
荧光
磷光有机发光二极管
有机发光二极管
余辉
量子效率
显色指数
发光二极管
光致发光
发光
纳米技术
自发辐射
作者
Dan Ai,Wenjing Zhang,Jiaying Wu,Jibiao Jin,He Jiang,Zheng Xie
出处
期刊:Small
[Wiley]
日期:2026-04-02
卷期号:22 (29): e73278-e73278
摘要
White light-emitting diodes are gaining interest for next-generation lighting and displays due to their energy efficiency and wide applications. Conventional methods primarily combine a blue light-emitting diodes chip with a yellow emitter, or use an ultraviolet chip with red, green, and blue or white emitters. However, short exciton lifetime of light-emitting diodes has challenge in realizing energy-saving lamp and emergency lighting. Herein, an efficient supramolecular-carbon dots hybrid strategy to achieve efficient white emission with long-exciton lifetime is proposed. The 1,3,5-benzenetricarboxylic acid and cyanuric acid is employed as a blue-emitting molecular self-assembled room-temperature phosphorescence material, combined with highly efficient N, O-doped orange carbon dots to construct a hybrid phosphorescent system. As expected, a cold white-light emission with Commission Internationale d'Éclairage coordinates of (0.29, 0.34), a correlated color temperature of 7727 K, and a color rendering index of 84 is gained. The prepared light-emitting diodes exhibited distinct afterglow emission even after the power is turned off. The supramolecular-carbon dots hybrid design establishes a new paradigm for high-performance white light-emitting diodes, advanced anti-counterfeiting, and green materials. As a groundbreaking alternative to traditional rare-earth, organic dye, and quantum dot systems, it charts the course for intelligent and sustainable development in advanced materials science.
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