Monoammonium Modified Dion-Jacobson Quasi-2D Perovskite for High Efficiency Pure-Blue Light Emitting Diodes.

IF 13 2区材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY Small Pub Date : 2024-07-05 DOI:10.1002/smll.202402786

Jiazheng Hu, Jing Li, Guochao Lu, Dingshuo Zhang, Qiuting Cai, Xinyang Wang, Zhishan Fang, Haoran Zhang, Zaishang Long, Jun Pan, Xingliang Dai, Zhizhen Ye, Haiping He

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Abstract

Quasi-2D perovskites exhibit impressive optoelectronic properties and hold significant promise for future light-emitting devices. However, the efficiency of perovskite light-emitting diodes (PeLEDs) is seriously limited by defect-induced nonradiative recombination and imbalanced charge injection. Here, the defect states are passivated and charge injection balance is effectively improved by introducing the additive cyclohexanemethylammonium (CHMA) to bromide-based Dion-Jacobson (D-J) structure quasi-2D perovskite emission layer. CHMA participates in the crystallization of perovskite, leading to high quality film composed of compact and well-contacted grains with enhanced hole transportation and less defects. As a result, the corresponding PeLEDs exhibit stable pure blue emission at 466 nm with a maximum external quantum efficiency (EQE) of 9.22%. According to current knowledge, this represents the highest EQE reported for pure-blue PeLEDs based on quasi-2D bromide perovskite thin films. These findings underscore the potential of quasi-2D perovskites for advanced light-emitting devices and pave the way for further advancements in PeLEDs.

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用于高效纯蓝光发光二极管的单铵修饰 Dion-Jacobson 准二维 Perovskite。

准二维过氧化物具有令人印象深刻的光电特性，在未来的发光器件中大有可为。然而，包晶发光二极管（PeLED）的效率受到缺陷诱导的非辐射性重组和不平衡电荷注入的严重限制。在这里，通过在基于溴的 Dion-Jacobson (D-J) 结构准二维包晶发光层中引入添加剂环己基甲基铵 (CHMA)，钝化了缺陷态并有效改善了电荷注入平衡。CHMA 参与了透辉石的结晶过程，从而形成了由紧密、接触良好的晶粒组成的高质量薄膜，增强了空穴传输，减少了缺陷。因此，相应的 PeLED 在 466 纳米波长处可发出稳定的纯蓝光，最大外部量子效率 (EQE) 为 9.22%。据目前所知，这是基于准二维溴化物包晶薄膜的纯蓝 PeLED 的最高 EQE。这些发现凸显了准二维包光体在先进发光器件方面的潜力，并为进一步推动珀尔LED的发展铺平了道路。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Small 工程技术-材料科学：综合

CiteScore

17.70

自引率

3.80%

发文量

1830

审稿时长

2.1 months

期刊介绍： Small serves as an exceptional platform for both experimental and theoretical studies in fundamental and applied interdisciplinary research at the nano- and microscale. The journal offers a compelling mix of peer-reviewed Research Articles, Reviews, Perspectives, and Comments. With a remarkable 2022 Journal Impact Factor of 13.3 (Journal Citation Reports from Clarivate Analytics, 2023), Small remains among the top multidisciplinary journals, covering a wide range of topics at the interface of materials science, chemistry, physics, engineering, medicine, and biology. Small's readership includes biochemists, biologists, biomedical scientists, chemists, engineers, information technologists, materials scientists, physicists, and theoreticians alike.