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Near-infrared emitting copper() complexes with a pyrazolylpyrimidine ligand: exploring relaxation pathways

Mononuclear copper( i ) complexes [CuL 2 ]I ( 1 ), [CuL 2 ] 2 [Cu 2 I 4 ]·2MeCN ( 2 ) and [CuL 2 ]PF 6 ( 3 ) with a new chelating pyrazolylpyrimidine ligand, 2-(3,5-dimethyl-1 H -pyrazol-1-yl)-4,6-diphenylpyrimidine (L), were synthesized. In the structures of complex cations [CuL 2 ] + , Cu + ions c...

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Published in:Dalton transactions : an international journal of inorganic chemistry 2022-02, Vol.51 (7), p.2898-2911
Main Authors: Shekhovtsov, Nikita A, Kokina, Tatyana E, Vinogradova, Katerina A, Panarin, Andrey Y, Rakhmanova, Marianna I, Naumov, Dmitry Y, Pervukhina, Natalya V, Nikolaenkova, Elena B, Krivopalov, Viktor P, Czerwieniec, Rafa, Bushuev, Mark B
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Language:English
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Summary:Mononuclear copper( i ) complexes [CuL 2 ]I ( 1 ), [CuL 2 ] 2 [Cu 2 I 4 ]·2MeCN ( 2 ) and [CuL 2 ]PF 6 ( 3 ) with a new chelating pyrazolylpyrimidine ligand, 2-(3,5-dimethyl-1 H -pyrazol-1-yl)-4,6-diphenylpyrimidine (L), were synthesized. In the structures of complex cations [CuL 2 ] + , Cu + ions coordinate two L molecules ( N , N -chelating coordination). Extended π-systems of the L molecules in [CuL 2 ] + favor the formation of paired π-π stacking intramolecular interactions between the pyrimidine and phenyl rings leading to significant distortions of tetrahedral coordination cores, CuN 4 . The free ligand L demonstrates dual excitation wavelength dependent luminescence in the UV and violet regions, which is attributed to S 1 → S 0 fluorescence and T 1 → S 0 phosphorescence with intraligand charge transfer character. The complexes 1-3 demonstrate T 1 → S 0 phosphorescence in the near-infrared region. Theoretical investigations point to its ligand-to-metal charge transfer (LMCT) origin. Large Stokes shifts of emission ( ca. 200 nm) are the result of notable planarizations of CuN 4 cores in the T 1 state as compared to the S 0 state. Spin-orbit coupling computations revealed that the most effective intersystem crossing channels for [CuL 2 ] + appear in high-lying excited states, while the S 1 → T 1 transition is unfavourable according to El-Sayed's rule and the energy gap law. Electron-vibration coupling calculations showed that the C-C and C-N stretching vibrations of the pyrimidine and phenyl moieties, the asymmetric Cu-N stretching vibrations and the wagging motions of phenyl rings contribute the most to the non-radiative deactivation of L and [CuL 2 ] + . Mononuclear copper( i ) complexes demonstrate T 1 → S 0 phosphorescence in the near-infrared region associated with ligand-to-metal charge transfer. The most effective intersystem crossing channels are S 6 → T 7 , S 6 → T 8 and S 10 → T 12 .
ISSN:1477-9226
1477-9234
DOI:10.1039/d1dt04325k