Suppression of Kasha’s rule in higher excited states of 4-pyrilocyanines

Yuri P. Piryatinski; Anatoli B. Verbitsky; Petro Lutsyk; Oleksiy Rozhin; Oleksiy Kachkovsky; Yaroslav Prostota; Volodymyr Brovarets; Volodymyr Kurdyukov

doi:10.1080/15421406.2018.1542104

Suppression of Kasha’s rule in higher excited states of 4-pyrilocyanines

Yuri P. Piryatinski, Anatoli B. Verbitsky, Petro Lutsyk, Oleksiy Rozhin, Oleksiy Kachkovsky, Yaroslav Prostota, Volodymyr Brovarets, Volodymyr Kurdyukov

Research output: Contribution to journal › Conference article › peer-review

Abstract

Spectral properties of the series of cationic polymethine dyes containing conjugated chain of different length and 4-pyrylium terminal groups were studied in details. Besides, the steady-state long-wavelength fluorescence from the lowest excited state and the fluorescence from higher excited states were experimentally revealed. The steady-state fluorescence band from the lowest excited state is shifted bathochromically with lengthening of the polymethine chain, which is also reflected in the absorption shift. According to quantum-chemical modeling, the appearance of unconventional fluorescence, which suppresses Kasha’s rule, is associated with the different nature of the lowest excited states: the first and forth transitions are typical polymethine electron transitions involved only totally delocalized molecular orbitals (MOs), whereas the second and third transitions correspond to the electron jumping from the degenerated MOs localized only within the terminal groups (so called quasi-local MOs and hence quasi-local transitions). The forbidden transitions between the excited states of different types stimulate the fluorescence from the higher excited states.

Original language	English
Pages (from-to)	33-40
Number of pages	8
Journal	Molecular Crystals and Liquid Crystals
Volume	672
Issue number	1
DOIs	https://doi.org/10.1080/15421406.2018.1542104
Publication status	Published - 13 Jun 2019
Event	1th International Conference on Electronic Processes in Organic and Inorganic Materials (ICEPOM-11) - Ivano-Frankivsk, Ukraine Duration: 21 May 2018 → 25 May 2018

Keywords

higher excited states
Kasha's rule
quantum-chemical modeling
unconventional fluorescence

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10.1080/15421406.2018.1542104

Suppression of Kasha’s rule in higher excited states of 4-pyrilocyaninesAccepted author manuscript, 871 KB

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title = "Suppression of Kasha{\textquoteright}s rule in higher excited states of 4-pyrilocyanines",

abstract = "Spectral properties of the series of cationic polymethine dyes containing conjugated chain of different length and 4-pyrylium terminal groups were studied in details. Besides, the steady-state long-wavelength fluorescence from the lowest excited state and the fluorescence from higher excited states were experimentally revealed. The steady-state fluorescence band from the lowest excited state is shifted bathochromically with lengthening of the polymethine chain, which is also reflected in the absorption shift. According to quantum-chemical modeling, the appearance of unconventional fluorescence, which suppresses Kasha{\textquoteright}s rule, is associated with the different nature of the lowest excited states: the first and forth transitions are typical polymethine electron transitions involved only totally delocalized molecular orbitals (MOs), whereas the second and third transitions correspond to the electron jumping from the degenerated MOs localized only within the terminal groups (so called quasi-local MOs and hence quasi-local transitions). The forbidden transitions between the excited states of different types stimulate the fluorescence from the higher excited states.",

keywords = "higher excited states, Kasha's rule, quantum-chemical modeling, unconventional fluorescence",

author = "Piryatinski, {Yuri P.} and Verbitsky, {Anatoli B.} and Petro Lutsyk and Oleksiy Rozhin and Oleksiy Kachkovsky and Yaroslav Prostota and Volodymyr Brovarets and Volodymyr Kurdyukov",

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doi = "10.1080/15421406.2018.1542104",

language = "English",

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journal = "Molecular Crystals and Liquid Crystals",

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TY - JOUR

T1 - Suppression of Kasha’s rule in higher excited states of 4-pyrilocyanines

AU - Piryatinski, Yuri P.

AU - Verbitsky, Anatoli B.

AU - Lutsyk, Petro

AU - Rozhin, Oleksiy

AU - Kachkovsky, Oleksiy

AU - Prostota, Yaroslav

AU - Brovarets, Volodymyr

AU - Kurdyukov, Volodymyr

PY - 2019/6/13

Y1 - 2019/6/13

N2 - Spectral properties of the series of cationic polymethine dyes containing conjugated chain of different length and 4-pyrylium terminal groups were studied in details. Besides, the steady-state long-wavelength fluorescence from the lowest excited state and the fluorescence from higher excited states were experimentally revealed. The steady-state fluorescence band from the lowest excited state is shifted bathochromically with lengthening of the polymethine chain, which is also reflected in the absorption shift. According to quantum-chemical modeling, the appearance of unconventional fluorescence, which suppresses Kasha’s rule, is associated with the different nature of the lowest excited states: the first and forth transitions are typical polymethine electron transitions involved only totally delocalized molecular orbitals (MOs), whereas the second and third transitions correspond to the electron jumping from the degenerated MOs localized only within the terminal groups (so called quasi-local MOs and hence quasi-local transitions). The forbidden transitions between the excited states of different types stimulate the fluorescence from the higher excited states.

AB - Spectral properties of the series of cationic polymethine dyes containing conjugated chain of different length and 4-pyrylium terminal groups were studied in details. Besides, the steady-state long-wavelength fluorescence from the lowest excited state and the fluorescence from higher excited states were experimentally revealed. The steady-state fluorescence band from the lowest excited state is shifted bathochromically with lengthening of the polymethine chain, which is also reflected in the absorption shift. According to quantum-chemical modeling, the appearance of unconventional fluorescence, which suppresses Kasha’s rule, is associated with the different nature of the lowest excited states: the first and forth transitions are typical polymethine electron transitions involved only totally delocalized molecular orbitals (MOs), whereas the second and third transitions correspond to the electron jumping from the degenerated MOs localized only within the terminal groups (so called quasi-local MOs and hence quasi-local transitions). The forbidden transitions between the excited states of different types stimulate the fluorescence from the higher excited states.

KW - higher excited states

KW - Kasha's rule

KW - quantum-chemical modeling

KW - unconventional fluorescence

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DO - 10.1080/15421406.2018.1542104

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JF - Molecular Crystals and Liquid Crystals

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Y2 - 21 May 2018 through 25 May 2018

ER -

Suppression of Kasha’s rule in higher excited states of 4-pyrilocyanines

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Keywords

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