Fluorescence and phosphorescence of acetone in neat liquid and aqueous solution studied by QM/MM and PCM approaches

Kestutis Aidas; Kurt Valentin Mikkelsen; B. Mennucci; J. Kongsted

Fluorescence and phosphorescence of acetone in neat liquid and aqueous solution studied by QM/MM and PCM approaches

Kestutis Aidas, Kurt Valentin Mikkelsen, B. Mennucci, J. Kongsted

Department of Chemistry

12 Citations (Scopus)

Abstract

Electronic singlet and triplet nπ* absorption and emission energies of acetone in vacuum, neat liquid and aqueous solution have been calculated. Electronic states of acetone in solution have been modelled using combined molecular dynamics-quantum mechanics/molecular mechanics techniques and the polarizable continuum model. In addition, we have compared density functional theory based results to corresponding coupled cluster singles and doubles predictions. Theoretical results have also been compared to experimental data. In general, we have obtained a good description of solvent effects on the absorption energies. However, modelling of excited states explicitly is still a challenge for the applied approaches, as the solvent shifts of the singlet nπ* emission have been considerably underestimated and also the solvent shift related to the Stokes shifts of fluorescence was predicted to have incorrect sign compared to available experimental data.

Original language	English
Journal	International Journal of Quantum Chemistry
Volume	111
Pages (from-to)	1511-1520
Number of pages	10
ISSN	0020-7608
Publication status	Published - Jun 2011

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title = "Fluorescence and phosphorescence of acetone in neat liquid and aqueous solution studied by QM/MM and PCM approaches",

abstract = "Electronic singlet and triplet nπ* absorption and emission energies of acetone in vacuum, neat liquid and aqueous solution have been calculated. Electronic states of acetone in solution have been modelled using combined molecular dynamics-quantum mechanics/molecular mechanics techniques and the polarizable continuum model. In addition, we have compared density functional theory based results to corresponding coupled cluster singles and doubles predictions. Theoretical results have also been compared to experimental data. In general, we have obtained a good description of solvent effects on the absorption energies. However, modelling of excited states explicitly is still a challenge for the applied approaches, as the solvent shifts of the singlet nπ* emission have been considerably underestimated and also the solvent shift related to the Stokes shifts of fluorescence was predicted to have incorrect sign compared to available experimental data.",

author = "Kestutis Aidas and Mikkelsen, {Kurt Valentin} and B. Mennucci and J. Kongsted",

year = "2011",

month = jun,

language = "English",

volume = "111",

pages = "1511--1520",

journal = "International Journal of Quantum Chemistry",

issn = "0020-7608",

publisher = "JohnWiley & Sons, Inc.",

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TY - JOUR

T1 - Fluorescence and phosphorescence of acetone in neat liquid and aqueous solution studied by QM/MM and PCM approaches

AU - Aidas, Kestutis

AU - Mikkelsen, Kurt Valentin

AU - Mennucci, B.

AU - Kongsted, J.

PY - 2011/6

Y1 - 2011/6

N2 - Electronic singlet and triplet nπ* absorption and emission energies of acetone in vacuum, neat liquid and aqueous solution have been calculated. Electronic states of acetone in solution have been modelled using combined molecular dynamics-quantum mechanics/molecular mechanics techniques and the polarizable continuum model. In addition, we have compared density functional theory based results to corresponding coupled cluster singles and doubles predictions. Theoretical results have also been compared to experimental data. In general, we have obtained a good description of solvent effects on the absorption energies. However, modelling of excited states explicitly is still a challenge for the applied approaches, as the solvent shifts of the singlet nπ* emission have been considerably underestimated and also the solvent shift related to the Stokes shifts of fluorescence was predicted to have incorrect sign compared to available experimental data.

AB - Electronic singlet and triplet nπ* absorption and emission energies of acetone in vacuum, neat liquid and aqueous solution have been calculated. Electronic states of acetone in solution have been modelled using combined molecular dynamics-quantum mechanics/molecular mechanics techniques and the polarizable continuum model. In addition, we have compared density functional theory based results to corresponding coupled cluster singles and doubles predictions. Theoretical results have also been compared to experimental data. In general, we have obtained a good description of solvent effects on the absorption energies. However, modelling of excited states explicitly is still a challenge for the applied approaches, as the solvent shifts of the singlet nπ* emission have been considerably underestimated and also the solvent shift related to the Stokes shifts of fluorescence was predicted to have incorrect sign compared to available experimental data.

M3 - Journal article

SN - 0020-7608

VL - 111

SP - 1511

EP - 1520

JO - International Journal of Quantum Chemistry

JF - International Journal of Quantum Chemistry

ER -

Fluorescence and phosphorescence of acetone in neat liquid and aqueous solution studied by QM/MM and PCM approaches

Abstract

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