新型卤化亚铜（I）配合物展现出热活化延迟荧光并兼具室温磷光：卤素对平衡的调控

New Cu(i) halide complexes showing TADF combined with room temperature phosphorescence: the balance tuned by halogens.

作者信息

Baranov Andrey Yu, Berezin Alexey S, Samsonenko Denis G, Mazur Anton S, Tolstoy Peter M, Plyusnin Viktor F, Kolesnikov Ilya E, Artem'ev Alexander V

机构信息

Nikolaev Institute of Inorganic Chemistry, Siberian Branch of Russian Academy of Sciences, 3, Akad. Lavrentiev Ave., Novosibirsk 630090, Russian Federation.

Institute of Chemistry, St. Petersburg State University, Russian Federation.

出版信息

Dalton Trans. 2020 Mar 9;49(10):3155-3163. doi: 10.1039/d0dt00192a.

DOI:10.1039/d0dt00192a

PMID:32083636

Abstract

A series of Cu(i) halide complexes derived from tris(2-pyridyl)phosphine (Py3P), [Cu2(Py3P)2X2] (X = Cl, Br, I), have been synthesized by a straightforward reaction in solution or through a mechanochemical route. At room temperature, the solid complexes exhibit bright dual-mode photoluminescence (λmax = 520-550 nm, τ = 14.5-20.0 μs, and ΦPL ≈ 53%), expressed by thermally activated delayed fluorescence (TADF) combined with phosphorescence (PH), originating from 1(M + X)LCT and 3(M + X)LCT excited states, respectively. Remarkably, the balance of these radiative processes at 300 K is regulated by halogen atom nature, switching from TADF-assisted phosphorescence to PH-admixed TADF. The emission of [Cu2(Py3P)2Cl2] at 300 K is largely contributed by PH (73%) admixed with the TADF fraction (27%) and [Cu2(Py3P)2Br2] also emits mainly PH (65%) admixed with the larger TADF fraction (35%). Meanwhile, for [Cu2(Py3P)2I2], the TADF channel becomes dominating (61%) and PH contribution drops to 39%. The photophysical study corroborated by (TD)DFT computations has revealed that this effect arises mainly from the narrowing of the ΔE(S1 - T1) gap of the [Cu2(Py3P)2X2] complexes in the order Cl (1500 cm-1) > Br (1250 cm-1) > I (1000 cm-1) which facilitates the TADF pathway and suppresses PH in the same order.

摘要

通过在溶液中直接反应或通过机械化学途径，合成了一系列由三（2 - 吡啶基）膦（Py3P）衍生的卤化亚铜（I）配合物，即[Cu2(Py3P)2X2]（X = Cl、Br、I）。在室温下，固体配合物呈现出明亮的双模式光致发光（λmax = 520 - 550 nm，τ = 14.5 - 20.0 μs，且ΦPL ≈ 53%），由热激活延迟荧光（TADF）与磷光（PH）共同表现，分别源自1(M + X)LCT和3(M + X)LCT激发态。值得注意的是，这些辐射过程在300 K时的平衡受卤素原子性质调控，从TADF辅助的磷光转变为PH混合的TADF。[Cu2(Py3P)2Cl^2]在300 K时的发射主要由与TADF部分（27%）混合的PH（73%）贡献，[Cu2(Py3P)2Br^2]也主要发射与更大TADF部分（35%）混合的PH（65%）。同时，对于[Cu2(Py3P)2I^2]，TADF通道占主导（61%），PH贡献降至39%。由（TD）DFT计算证实的光物理研究表明，这种效应主要源于[Cu2(Py3P)2X^2]配合物的ΔE(S1 - T1)能隙按Cl（1500 cm^-1）> Br（1250 cm^-1）> I（10‌00 cm^-1）的顺序变窄，这以相同顺序促进了TADF途径并抑制了PH。

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新型卤化亚铜（I）配合物展现出热活化延迟荧光并兼具室温磷光：卤素对平衡的调控

New Cu(i) halide complexes showing TADF combined with room temperature phosphorescence: the balance tuned by halogens.

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