材料科学
色域
量子点
量子产额
钙钛矿(结构)
发光
发光效率
发光二极管
光电子学
荧光粉
卤化物
磷光
复合材料
二极管
电致发光
聚合物
光致发光
化学工程
荧光
图层(电子)
光学
化学
有机化学
工程类
物理
作者
Tongtong Xuan,Junjian Huang,Huan Liu,Sunqi Lou,Luyu Cao,Weijiang Gan,Ru‐Shi Liu,Jing Wang
标识
DOI:10.1021/acs.chemmater.8b04596
摘要
We present a novel composite strategy to enhance the stability of water-sensitive CsPbBr3 quantum dots (QDs) by embedding the QDs into the super-hydrophobic porous organic polymer frameworks (CPB@SHFW). The CPB@SHFW composites not only preserve a high photoluminescence quantum yield (PLQY ≈ 60%) and narrow band emission (full width at half-maximum ≈ 16 nm) but also inherit the outstanding water-resistant property of SHFW to protect the QDs from hydrolytic degradation. The PLQY of the composites was maintained at 91% (PLQY ≈ 54.3%) of the initial one (PLQY ≈ 60%) after being immersed in water for 31 days. Even after being immersed in water for 6 months, the CPB@SHFW composites still retain a bright green emission. In addition, super-hydrophobic perovskite QD-polymer composites (IPQDs@SHFW) with tunable and bright emission were prepared by using suitable halide salts. A white light-emitting diode (WLED) device was prepared by combining green-emitting CPB@SHFW composites and red-emitting K2SiF6:Mn4+ phosphors with a blue LED chip. The device exhibits a high luminous efficiency of 50 lm/W and a wide color gamut (127% of the National Television System Committee and 95% Rec. 2020). This work provides an alternative approach to solve the challenging stability issue of perovskite QDs; therefore, it has a positive implication for their practical application in liquid crystal display backlights.
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