卤化物
材料科学
电致发光
钙钛矿(结构)
发光二极管
量子效率
离子
量子点
钝化
光电子学
分析化学(期刊)
光化学
无机化学
化学
纳米技术
结晶学
有机化学
图层(电子)
作者
Mingyuan Xie,Jie Guo,Xiaoyu Zhang,Chenghao Bi,Xuejiao Sun,Hangren Li,Lin Zhang,David J. Binks,Gang Li,Weitao Zheng,Jianjun Tian
标识
DOI:10.1002/adfm.202300116
摘要
Abstract Perovskite‐based light‐emitting diodes (PeLEDs) with a mixed halide composition can be used to obtain the “pure red” emission, i.e., in the 620–650 nm range, required for high‐definition displays. However, fast halide ion migration induces phase separation in these materials under electric fields, resulting in poor spectral stability and low efficiency. Herein, a method for producing mixed halide CsPbI 3‐x Br x quantum dots (QDs) is reported in which ion migration is suppressed. The mixed halide composition is first achieved by anion exchange between CsPbI 3 QDs and hydrobromic acid (HBr), during that the bromine ions efficiently passivate the iodine vacancies of the QDs. The original oleic acid ligands are then exchanged for 1‐dodecanethiol (1‐DT), which suppresses halide ion migration via the strong binding of the sulfhydryl group with the QD surface. PeLEDs based on these QDs exhibit a pure‐red electroluminescence (EL) peak at 637 nm, a maximum external quantum efficiency (EQE) of 21.8% with an average value of 20.4%, a peak luminance of 2653 cd m −2 , and low EQE decease with increasing luminance. The EL spectrum of these devices is stable even at 6.7 V and they have an EQE half‐life of 70 min at an initial luminance of 150 cd m −2 .
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