Cationic Zinc(II) Complexes with Carbazole-Type Counter-Anions: Intracomplex Donor/Acceptor Pairs Affording Exciplexes with Thermally Activated Delayed Fluorescence

Zhang, Ke; Meng, Xianwen; He, Lei

doi:10.1021/acs.inorgchem.2c03804

Cited by 2 publications

(1 citation statement)

References 60 publications

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“…The nonradiative deactivation of the 1 LLCT(CN) state might be related to somewhat weaker π-electron density-accepting properties in the excited states of N -heterocyclic carbenes compared to cAAC, which results in higher LLCT excitation energies for 8 and makes the 3 LC(bdt) state accessible. Although a couple of recently published articles reported the population of triplet excited states in the case of Zn II molecules, such a photophysical behavior remains uncommon for the complexes based on light and earth-abundant zinc metal. ,,− …”

Section: Resultsmentioning

confidence: 99%

Synthesis, Structural Characterization, and Phosphorescence Properties of Trigonal Zn(II) Carbene Complexes

Koop,

Mrózek,

Janiak

et al. 2023

Inorg. Chem.

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The sterically demanding N-heterocyclic carbene ITr (N,N′-bis(triphenylmethyl)imidazolylidene) was employed for the preparation of novel trigonal zinc(II) complexes of the type [ZnX 2 (ITr)] [X = Cl (1), Br (2), and I (3)], for which the low coordination mode was confirmed in both solution and solid state. Because of the atypical coordination geometry, the reactivity of 1− 3 was studied in detail using partial or exhaustive halide exchange and halide abstraction reactions to access [ZnLCl(ITr)] [L = carbazolate (4), 3,6-di-tert-butyl-carbazolate (5), phenoxazine (6), and phenothiazine ( 7 (9), Br (10), and I (11)], all of which were isolated and structurally characterized. Importantly, for all complexes 4−11, the trigonal coordination environment of the Zn II ion is maintained, demonstrating a highly stabilizing effect due to the steric demand of the ITr ligand, which protects the metal center from further ligand association. In addition, complexes 1−3 and 8−11 show longlived luminescence from triplet excited states in the solid state at room temperature, according to our photophysical studies. Our quantum chemical density functional theory/multireference configuration interaction (DFT/MRCI) calculations reveal that the phosphorescence of 8 originates from a locally excited triplet state on the bdt ligand. They further suggest that the phenyl substituents of ITr are photochemically not innocent but can coordinate to the electron-deficient metal center of this trigonal complex in the excited state.

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Section: Resultsmentioning

confidence: 99%

Synthesis, Structural Characterization, and Phosphorescence Properties of Trigonal Zn(II) Carbene Complexes

Koop,

Mrózek,

Janiak

et al. 2023

Inorg. Chem.

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Efficient Blue Photo‐ and Electroluminescence from CF₃‐Decorated Cu(I) Complexes

Li,

Ying,

Tan

et al. 2024

Chemistry A European J

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Luminescent organometallic complexes of earth‐abundant copper(I) have long been studied in organic light‐emitting diodes (OLED). Particularly, Cu(I)‐based carbene‐metal‐amide (CMA) complexes have recently emerged as promising organometallic emitters. However, blue‐emitting Cu(I) CMA complexes have been rarely reported. Here we constructed two blue‐emitting Cu(I) CMA emitters, MAC*‐Cu‐CF3Cz and MAC*‐Cu‐2CF3Cz, by introducing one or two CF3‐ substitutes into carbazole ligands. Both complexes exhibited high thermal stability and blue emission colors. Moreover, two complexes exhibited different emission origins rooting from different donor ligands: a distinct thermally activated delayed fluorescence (TADF) from ligand‐to‐ligand charge transfer excited states for MAC*‐Cu‐CF3Cz or a dominant phosphorescence nature from local triplet excited state of the carbazole ligand for MAC*‐Cu‐2CF3Cz. Inspiringly, MAC*‐Cu‐CF3Cz had high photoluminescence quantum yields of up to 94% and short emission lifetimes of down to 1.2 μs in doped films, accompanied by relatively high radiative rates in the 105 s−1 order. The resultant vacuum‐deposited OLEDs based on MAC*‐Cu‐CF3Cz delivered pure‐blue electroluminescence at 462 nm together with a high external quantum efficiency of 13.0%.

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Cationic Zinc(II) Complexes with Carbazole-Type Counter-Anions: Intracomplex Donor/Acceptor Pairs Affording Exciplexes with Thermally Activated Delayed Fluorescence

Cited by 2 publications

References 60 publications

Synthesis, Structural Characterization, and Phosphorescence Properties of Trigonal Zn(II) Carbene Complexes

Synthesis, Structural Characterization, and Phosphorescence Properties of Trigonal Zn(II) Carbene Complexes

Efficient Blue Photo‐ and Electroluminescence from CF₃‐Decorated Cu(I) Complexes

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Cationic Zinc(II) Complexes with Carbazole-Type Counter-Anions: Intracomplex Donor/Acceptor Pairs Affording Exciplexes with Thermally Activated Delayed Fluorescence

Cited by 2 publications

References 60 publications

Synthesis, Structural Characterization, and Phosphorescence Properties of Trigonal Zn(II) Carbene Complexes

Synthesis, Structural Characterization, and Phosphorescence Properties of Trigonal Zn(II) Carbene Complexes

Efficient Blue Photo‐ and Electroluminescence from CF3‐Decorated Cu(I) Complexes

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Efficient Blue Photo‐ and Electroluminescence from CF₃‐Decorated Cu(I) Complexes