基于有机环金属化铂(II)配合物的深红至近红外电致发光材料的研究进展。

IF 8.6 2区 化学 Q1 Chemistry
Cheng Zhang, Yuanyuan Fang, Danfeng He, Keyue Xu, Yuzhu Bian, Yiru Li, Mingsheng Peng, Wenjing Xiong
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引用次数: 0

摘要

近年来,近红外(NIR)发光材料因其在军工、航空航天、照明、显示和可穿戴设备等领域的广阔应用前景而受到越来越多的关注。作为过渡金属配合物,铂(II)配合物因其独特的 d8 电子结构,已被证明能在近红外有机发光二极管中高效发光。这种结构确保了铂(II)配合物分子具有高度的平面性、多种激发态和较强的分子间相互作用。本综述总结了近年来基于铂(II)配合物的深红至近红外有机发光材料的研究进展,为进一步设计和合成性能优越的近红外铂(II)配合物发光材料提供了一定的参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Research Progress of Deep-Red to Near-Infrared Electroluminescent Materials Based on Organic Cyclometallated Platinum(II) Complexes

Research Progress of Deep-Red to Near-Infrared Electroluminescent Materials Based on Organic Cyclometallated Platinum(II) Complexes

In recent years, the near-infrared (NIR) light-emitting materials have attracted increasing attention due to the broad application prospects in the fields of military industry, aerospace, lighting, display and wearable devices. As the transition metal complexes, platinum(II) complexes have been shown to emit luminescence efficiently in NIR organic light-emitting diodes because of the unique d8 electron structure. This structure ensures that the platinum(II) complex molecules exhibit a high planarity, variety of excited states, and strong intermolecular interactions. This review summarizes the research progress of deep red to NIR organic light-emitting materials based on platinum(II) complexes in recent years and provides a certain reference for the further design and synthesis of NIR platinum(II) complex luminescent materials with superior performance.

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来源期刊
Topics in Current Chemistry
Topics in Current Chemistry 化学-化学综合
CiteScore
11.70
自引率
1.20%
发文量
0
审稿时长
6-12 weeks
期刊介绍: Topics in Current Chemistry provides in-depth analyses and forward-thinking perspectives on the latest advancements in chemical research. This renowned journal encompasses various domains within chemical science and their intersections with biology, medicine, physics, and materials science. Each collection within the journal aims to offer a comprehensive understanding, accessible to both academic and industrial readers, of emerging research in an area that captivates a broader scientific community. In essence, Topics in Current Chemistry illuminates cutting-edge chemical research, fosters interdisciplinary collaboration, and facilitates knowledge-sharing among diverse scientific audiences.
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