Effective method to compute vibrationally resolved optical spectra of large molecules at finite temperature in the gas phase and in solution (Articolo in rivista)

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Label
  • Effective method to compute vibrationally resolved optical spectra of large molecules at finite temperature in the gas phase and in solution (Articolo in rivista) (literal)
Anno
  • 2007-01-01T00:00:00+01:00 (literal)
Alternative label
  • Santoro Fabrizio; Lami Alessandro; Improta Roberto; Barone Vincenzo (2007)
    Effective method to compute vibrationally resolved optical spectra of large molecules at finite temperature in the gas phase and in solution
    in The Journal of chemical physics
    (literal)
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  • Santoro Fabrizio; Lami Alessandro; Improta Roberto; Barone Vincenzo (literal)
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  • 126 (literal)
Rivista
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  • 12 (literal)
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  • Pubblicazione su rivista scientifica (literal)
Note
  • ISI Web of Science (WOS) (literal)
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  • 1) Istituto per i Processi Chimico-Fisici - CNR, Area della Ricerca del CNR Via Moruzzi,1 I-56124 Pisa, Italy 2) Dipartimento di Chimica, Università Federico II, Complesso Monte S. Angelo, via Cintia, I-80126 Napoli, Italy, 3) Istituto di Biostrutture e Bioimmagini - CNR, via Mezzocannone 16, I-80134 Napoli, Italy (literal)
Titolo
  • Effective method to compute vibrationally resolved optical spectra of large molecules at finite temperature in the gas phase and in solution (literal)
Abstract
  • The authors present a new method for the computation of vibrationally resolved optical spectra of large molecules, including the Duschinsky rotation of the normal modes. The method automatically selects the relevant vibronic contributions to the spectrum, independently of their frequency, and it is able to provide fully converged spectra with a quite modest computational time, both in vacuo and in condensed phase. Starting from the rigorous time-dependent expression we discuss indeed in which limits the spectrum of a molecule embedded in a solvent, described as a polarizable continuum, can be computed in a time-independent formalism, defining both non-equilibrium and equilibrium limits. In these cases the polarizable continuum model (PCM) provides a suitable description of the solvent field. By computing the absorption spectra of anthracene in gas phase and of coumarin C153 in gas phase and cyclohexane, and the phosphorescence spectrum on the un-substituted coumarin in ethanol we show that the method is fast and efficient. (literal)
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