用于高性能红色和近红外电致发光的刚性桥联双层铂（II）配合物

Rigid Bridge-Confined Double-Decker Platinum(II) Complexes Towards High-Performance Red and Near-Infrared Electroluminescence.

作者信息

Zhang Youming, Miao Jingsheng, Xiong Jinfan, Li Kai, Yang Chuluo

机构信息

College of Materials Science and Engineering, Shenzhen University, Shenzhen, 518055, P.R. China.

出版信息

Angew Chem Int Ed Engl. 2022 Jan 3;61(1):e202113718. doi: 10.1002/anie.202113718. Epub 2021 Nov 22.

DOI:10.1002/anie.202113718

PMID:34734464

Abstract

A molecular design to high-performance red and near-infrared (NIR) organic light-emitting diodes (OLEDs) emitters remains demanding. Herein a series of dinuclear platinum(II) complexes featuring strong intramolecular Pt⋅⋅⋅Pt and π-π interactions has been developed by using N-deprotonated α-carboline as a bridging ligand. The complexes in doped thin films exhibit efficient red to NIR emission from short-lived (τ=0.9-2.1 μs) triplet metal-metal-to-ligand charge transfer ( MMLCT) excited states. Red OLEDs demonstrate high maximum external quantum efficiencies (EQEs) of up to 23.3 % among the best Pt -complex-doped devices. The maximum EQE of 15.0 % and radiance of 285 W sr m for NIR OLEDs (λ =725 nm) are unprecedented for devices based on discrete molecular emitters. Both red and NIR devices show very small efficiency roll-off at high brightness. Appealing operational lifetimes have also been revealed for the devices. This work sheds light on the potential of intramolecular metallophilicity for long-wavelength molecular emitters and electroluminescence.

摘要

高性能红色和近红外（NIR）有机发光二极管（OLED）发光材料的分子设计仍然具有挑战性。在此，通过使用N-去质子化的α-咔啉作为桥联配体，开发了一系列具有强分子内Pt⋅⋅⋅Pt和π-π相互作用的双核铂（II）配合物。掺杂薄膜中的配合物在短寿命（τ = 0.9 - 2.1 μs）的三重态金属-金属到配体电荷转移（MMLCT）激发态下表现出从红色到近红外的高效发射。在最佳的铂配合物掺杂器件中，红色OLED展示出高达23.3%的高最大外量子效率（EQE）。对于基于离散分子发光材料的近红外OLED（λ = 725 nm），15.0%的最大EQE和285 W sr⁻¹ m⁻²的辐射亮度是前所未有的。红色和近红外器件在高亮度下都表现出非常小的效率滚降。这些器件还展现出令人满意的工作寿命。这项工作揭示了分子内亲金属性在长波长分子发光材料和电致发光方面的潜力。

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用于高性能红色和近红外电致发光的刚性桥联双层铂（II）配合物

Rigid Bridge-Confined Double-Decker Platinum(II) Complexes Towards High-Performance Red and Near-Infrared Electroluminescence.

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