Unusual Excimer/Dimer Behavior of a Highly Soluble C,N Platinum(II) Complex with a Spiro-Fluorene Motif

Pander, Piotr; Zaytsev, Andrey V.; Franca, Larissa Gomes; Dias, Fernando B.; Kozhevnikov, Valery N.

doi:10.1021/acs.inorgchem.3c02667

Inorg. Chem.

2023

DOI: 10.1021/acs.inorgchem.3c02667

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Unusual Excimer/Dimer Behavior of a Highly Soluble C,N Platinum(II) Complex with a Spiro-Fluorene Motif

Piotr Pander,

Andrey V. Zaytsev,

Larissa Gomes Franca

et al.

Abstract: In this work, we introduce a spiro-fluorene unit into a phenylpyridine (CN)-type ligand as a simple way to deplanarize the structure and increase the solubility of the final platinum(II)••• complex. Using a spiro-fluorene unit, orthogonal to the main coordination plane of the complex, reduces intermolecular interactions, leading to increased solubility but without significantly affecting the ability of the complex to form Pt•••Pt dimers and excimers. This approach is highly important in the design of platinum(… Show more

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2024

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Cited by 4 publications

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Synthesis of Phosphorus/Arsenic Tridentate Ligands and Their Application for Luminescent Copper (I) Halide Complexes

Shimoji,

Kihara,

Sumida

et al. 2024

Eur J Inorg Chem

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We synthesized arsenic analogs of a tridentate PPP ligand, bis[2‐(diphenylphosphino)phenyl]phenylphosphine, achieving yields of 40% to 71%. Additionally, we prepared copper(I) halide (CuX, X = Br, I) complexes with these ligands, with yields between 43% and 84%. Using both experimental and computational methods, we examined their structures and photophysical characteristics. Single crystal X‐ray diffraction showed that all eight complexes had distorted tetrahedral geometries. These complexes exhibited photoluminescence with emission bands peaking from 506 nm to 551 nm and quantum yields up to 0.92 at room temperature. Emission lifetimes varied and showed no direct correlation with quantum yields or wavelengths. Physical manipulation and solvent variations significantly altered their photoluminescent properties. DFT and TD‐DFT calculations revealed that higher arsenic content increased spin‐orbit coupling constants, with iodide complexes performing better than bromide ones due to heavier elements enhancing spin‐orbit coupling. Substituting phosphorus with arsenic significantly affected the luminescence quantum yield and lifetime, demonstrating the heavy‐atom effect of arsenic. The position of arsenic in the ligands critically influenced the photophysical outcomes of the CuX complexes.

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Synthesis of Phosphorus/Arsenic Tridentate Ligands and Their Application for Luminescent Copper (I) Halide Complexes

Shimoji,

Kihara,

Sumida

et al. 2024

Eur J Inorg Chem

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Blue thermally activated delayed fluorescence excimers with high external quantum efficiency and accelerated reverse intersystem crossing

Lim,

Yang,

Patil

et al. 2024

Chemical Engineering Journal

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Dinuclear platinum(ii) complexes emitting through TADF: new ligand design to minimise aggregation and the S₁–T₁ energy gap

Pander,

Dikova,

Puttock

et al. 2024

Inorg. Chem. Front.

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Unusual Excimer/Dimer Behavior of a Highly Soluble C,N Platinum(II) Complex with a Spiro-Fluorene Motif

Cited by 4 publications

References 60 publications

Synthesis of Phosphorus/Arsenic Tridentate Ligands and Their Application for Luminescent Copper (I) Halide Complexes

Synthesis of Phosphorus/Arsenic Tridentate Ligands and Their Application for Luminescent Copper (I) Halide Complexes

Blue thermally activated delayed fluorescence excimers with high external quantum efficiency and accelerated reverse intersystem crossing

Dinuclear platinum(ii) complexes emitting through TADF: new ligand design to minimise aggregation and the S₁–T₁ energy gap

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Unusual Excimer/Dimer Behavior of a Highly Soluble C,N Platinum(II) Complex with a Spiro-Fluorene Motif

Cited by 4 publications

References 60 publications

Synthesis of Phosphorus/Arsenic Tridentate Ligands and Their Application for Luminescent Copper (I) Halide Complexes

Synthesis of Phosphorus/Arsenic Tridentate Ligands and Their Application for Luminescent Copper (I) Halide Complexes

Blue thermally activated delayed fluorescence excimers with high external quantum efficiency and accelerated reverse intersystem crossing

Dinuclear platinum(ii) complexes emitting through TADF: new ligand design to minimise aggregation and the S1–T1 energy gap

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Product

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Dinuclear platinum(ii) complexes emitting through TADF: new ligand design to minimise aggregation and the S₁–T₁ energy gap