探索中性四齿铂（II）配合物的三重激发态并调控其蓝光发射

Probing Triplet Excited States and Managing Blue Light Emission of Neutral Tetradentate Platinum(II) Complexes.

作者信息

You Cong, Xia Fang, Zhao Yue, Zhang Yin, Sheng Yongjian, Wu Yipei, Hang Xiao-Chun, Chen Fei, Ma Huili, Shen Kang, Sun Zhengyi, Ueba Takahiro, Kera Satoshi, Zhang Cong, Zhang Honghai, Chen Zhi-Kuan, Huang Wei

机构信息

Key Laboratory of Flexible Electronics (KLOFE) and Institute of Advanced Materials (IAM) , Nanjing Tech University (NanjingTech) , 30 South Puzhu Road , Nanjing 211800 , China.

Department of Photo-Molecular Science , Institute for Molecular Science , Okazaki , Aichi 444-8585 , Japan.

出版信息

J Phys Chem Lett. 2018 May 3;9(9):2285-2292. doi: 10.1021/acs.jpclett.8b00797. Epub 2018 Apr 19.

DOI:10.1021/acs.jpclett.8b00797

PMID:29664638

Abstract

The structural and photophysical properties of tetradentate Pt(ppzOppz), Pt(ppzOpopy), Pt(ppzOczpy), and Pt(czpyOczpy) have been experimentally and theoretically explored. Single-crystal diffraction measurements provided accurate structural information. Electrochemical and photophysical characterizations revealed internal electronic energy levels in ground and excited states. (Time-dependent) Density functional theory calculation revealed electron distributions in transition processes of S → S and S → T → S. Electronic transition study indicated that Pt(ppzOppz) demonstrated mixed MLCT/LC states and Pt(czpyOczpy) showed MLCT-dominated states in S and T. Both Pt(ppzOpopy) and Pt(ppzOczpy) presented strong delocalized spin transition (DST) during intersystem crossing. Upon frame modification of Pt(ppzOczpy), we found that their S and T can be independently manipulated. These blue emitters showed a tunable and narrow emission band (the narrowest fwhm was 19 nm) with luminescence efficiency as high as 86%. The findings of the DST transition mode in the neutral Pt(II) complexes provide guidance for rational design of novel phosphorescent materials.

摘要

已通过实验和理论方法对四齿配合物Pt(ppzOppz)、Pt(ppzOpopy)、Pt(ppzOczpy)和Pt(czpyOczpy)的结构和光物理性质进行了研究。单晶衍射测量提供了精确的结构信息。电化学和光物理表征揭示了基态和激发态的内部电子能级。（含时）密度泛函理论计算揭示了S→S和S→T→S跃迁过程中的电子分布。电子跃迁研究表明，Pt(ppzOppz)在S态和T态表现出混合的MLCT/LC态，而Pt(czpyOczpy)在S态和T态表现出以MLCT为主的态。Pt(ppzOpopy)和Pt(ppzOczpy)在系间窜越过程中均呈现出强烈的离域自旋跃迁（DST）。通过对Pt(ppzOczpy)的骨架修饰，我们发现其S态和T态可以独立调控。这些蓝色发光体表现出可调谐且窄的发射带（最窄半高宽为19 nm），发光效率高达86%。中性Pt(II)配合物中DST跃迁模式的研究结果为新型磷光材料的合理设计提供了指导。

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探索中性四齿铂（II）配合物的三重激发态并调控其蓝光发射

Probing Triplet Excited States and Managing Blue Light Emission of Neutral Tetradentate Platinum(II) Complexes.

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