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High-Luminance Microsized CH 3 NH 3 PbBr 3 Single-Crystal-Based Light-Emitting Diodes via a Facile Liquid-Insulator Bridging Route.

Huanyu ZhangTingxiu YuChaoqiang WangRuofei JiaAzhar Ali Ayaz PirzadoDi WuXiujuan ZhangXiao-Hong ZhangJian-Sheng Jie
Published in: ACS nano (2022)
Micro-/nanosized organic-inorganic hybrid perovskite single crystals (SCs) with appropriate thickness and high crystallinity are promising candidates for high-performance electroluminescent (EL) devices. However, their small lateral size poses a great challenge for efficient device construction and performance optimization, causing perovskite SC-based light-emitting diodes (PSC-LEDs) to demonstrate poor EL performance. Here, we develop a facile liquid-insulator bridging (LIB) strategy to fabricate high-luminance PSC-LEDs based on single-crystalline CH 3 NH 3 PbBr 3 microflakes. By introducing a blade-coated poly(methyl methacrylate) (PMMA) insulating layer to effectively overcome the problems of leakage current and possible short circuits between electrodes, we achieve the reliable fabrication of PSC-LEDs. The LIB method also allows us to systematically boost the device performance through crystal growth regulation and device architecture optimization. Consequently, we realize the best CH 3 NH 3 PbBr 3 microflake-based PSC-LED with an ultrahigh luminance of 136100 cd m -2 and a half-lifetime of 88.2 min at an initial luminance of ∼1100 cd m -2 , which is among the highest for organic-inorganic hybrid perovskite LEDs reported to date. Moreover, we observe the strong polarized edge emission of the microflake-based PSC-LEDs with a high degree of polarization up to 0.69. Our work offers a viable approach for the development of high-performance perovskite SC-based EL devices.
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