Lulu Wei, Shubing Tian, Mingze Sun, Ruili Song, Yunhu Wang, Dr. Mingming Zhang, Prof. Lei Wang, Prof. Zhanhua Wei, Prof. Jun Xing
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引用次数: 0
摘要
在开发具有高外部量子效率、出色的色纯度和可调波长的溶液处理蓝色发光二极管(LED)方面,金属混合卤化物透辉石已显示出相当大的潜力。然而,混合卤化物包晶在偏置电压下的严重相分离会导致 LED 的光谱不稳定。因此,抑制 Br/Cl 包晶的相位偏析以实现光谱稳定的蓝色包晶 LED(PeLED)是一个巨大的挑战。在这项工作中,我们系统地探讨了包晶成分、制备条件和器件结构对 PeLED 光谱稳定性的影响。我们观察到,稳定的光谱会随着 A 位阳离子中铯的比例、钝化剂和过氧化物薄膜的退火温度的增加而增加。最后,我们在优化条件下实现了光谱稳定和高性能的蓝色 PeLED。我们的研究结果为制备光谱稳定的 PeLED 提供了重要指导。
Exploring the Critical Factors Toward Spectrally Stable Mixed-Halide Blue Perovskite LEDs
Metal mixed-halide perovskite has demonstrated considerable potential in the development of solution-treated blue light-emitting diodes (LEDs) with high external quantum efficiency, excellent color purity, and tunable wavelength. However, the severe phase segregation of mixed-halide perovskite under bias voltage would lead to the spectral instability of LEDs. Therefore, suppressing phase segregation of Br/Cl perovskite towards spectrally stable blue perovskite LEDs (PeLEDs) is a big challenge. In this work, we systematically explore the influence of perovskite component, preparation conditions, and device structures on the spectral stability of PeLEDs. We have observed that the stable spectra increased the proportion of Cs in the A-site cations, passivator, and the annealing temperature of perovskite films. Finally, we achieve a spectra-stable and high-performance blue PeLED under optimized conditions. Our findings provide important guidance for preparing spectrally stable PeLEDs.
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