Enviar artigo por via de e-mail [2+2] Photocycloaddition of Styryl Dyes in the Cucurbit[8]uril Cavity and Its Ultrafast Dynamics
- Autores: Svirida A.D.1,2, Ivanov D.A.1, Kryukov I.V.1, Shandarov Y.A.1, Petrov N.K.1,2, Alfimov M.V.1,2, Aleksandrova N.A.1, Sazonov S.K.1, Vedernikov A.I.1, Gromov S.P.1,2
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Afiliações:
- Photochemistry Center of the “Crystallography and Photonics” Federal Research Center, Russian Academy of Sciences
- Moscow Institute of Physics and Technology (State University)
- Edição: Volume 53, Nº 3 (2019)
- Páginas: 204-210
- Seção: Photochemistry
- URL: https://journals.rcsi.science/0018-1439/article/view/157661
- DOI: https://doi.org/10.1134/S0018143919030147
- ID: 157661
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Resumo
[2+2] Photocycloaddition of a series of styryl dyes (a, b, and c, see text) in the cavity of cucurbit[8]uril (CB8) in aqueous solutions has been studied by optical spectroscopy. The complex formation constants were calculated for the 1 : 1 and 2 : 1 complexes of the styryl dyes with CB8. The optimal CB8 to dye molar ratios that correspond to the highest concentrations of the 2 : 1 complexes in the solution have been determined as 0.5, 0.3, and 1 for dyes a, b, and c, respectively. The quantum yields of photocycloaddition have been calculated from the results of dye photolysis in the presence of CB8: 0.06, 0.02, and 0.04 for a, b, and c, respectively. The fluorescence decay kinetics has been studied on the picosecond timescale. The lifetimes found are 1–2 ps, which correspond to the characteristic time of the solvation shell effect on the redistribution of the dye charge in the excited state. The long component of the fluorescence decay on the order of tens of picosecond is also observed. This component decreases in the presence of CB8, indicating the formation of dimeric state.
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Sobre autores
A. Svirida
Photochemistry Center of the “Crystallography and Photonics” Federal Research Center, Russian Academy of Sciences; Moscow Institute of Physics and Technology (State University)
Autor responsável pela correspondência
Email: svirida.anton@yandex.ru
Rússia, Moscow, 119421; Dolgoprudnyi, Moscow oblast, 141700
D. Ivanov
Photochemistry Center of the “Crystallography and Photonics” Federal Research Center, Russian Academy of Sciences
Email: svirida.anton@yandex.ru
Rússia, Moscow, 119421
I. Kryukov
Photochemistry Center of the “Crystallography and Photonics” Federal Research Center, Russian Academy of Sciences
Email: svirida.anton@yandex.ru
Rússia, Moscow, 119421
Yu. Shandarov
Photochemistry Center of the “Crystallography and Photonics” Federal Research Center, Russian Academy of Sciences
Email: svirida.anton@yandex.ru
Rússia, Moscow, 119421
N. Petrov
Photochemistry Center of the “Crystallography and Photonics” Federal Research Center, Russian Academy of Sciences; Moscow Institute of Physics and Technology (State University)
Email: svirida.anton@yandex.ru
Rússia, Moscow, 119421; Dolgoprudnyi, Moscow oblast, 141700
M. Alfimov
Photochemistry Center of the “Crystallography and Photonics” Federal Research Center, Russian Academy of Sciences; Moscow Institute of Physics and Technology (State University)
Email: svirida.anton@yandex.ru
Rússia, Moscow, 119421; Dolgoprudnyi, Moscow oblast, 141700
N. Aleksandrova
Photochemistry Center of the “Crystallography and Photonics” Federal Research Center, Russian Academy of Sciences
Email: svirida.anton@yandex.ru
Rússia, Moscow, 119421
S. Sazonov
Photochemistry Center of the “Crystallography and Photonics” Federal Research Center, Russian Academy of Sciences
Email: svirida.anton@yandex.ru
Rússia, Moscow, 119421
A. Vedernikov
Photochemistry Center of the “Crystallography and Photonics” Federal Research Center, Russian Academy of Sciences
Email: svirida.anton@yandex.ru
Rússia, Moscow, 119421
S. Gromov
Photochemistry Center of the “Crystallography and Photonics” Federal Research Center, Russian Academy of Sciences; Moscow Institute of Physics and Technology (State University)
Email: svirida.anton@yandex.ru
Rússia, Moscow, 119421; Dolgoprudnyi, Moscow oblast, 141700
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