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Geometries and properties of excited states in the gas phase and in solution: Theory and application of a time-dependent density functional theory polarizable continuum model
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72
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2006
Year
Quantum DynamicLocalized Excited StateEngineeringComputational ChemistryChemistryElectronic Excited StateMolecules Pcm-tddftExcited StatesPhotophysical PropertyBiophysicsQuantum SciencePhysicsPhotochemistryMechanistic PhotochemistryPhysical ChemistryQuantum ChemistryAnalytic DerivativesExcited State PropertyGas PhaseNatural SciencesCondensed Matter PhysicsCase Studies
In this paper we present the theory and implementation of analytic derivatives of time-dependent density functional theory (TDDFT) excited states energies, both in vacuo and including solvent effects by means of the polarizable continuum model. The method is applied to two case studies: p-nitroaniline and 4-(dimethyl)aminobenzonitrile. For both molecules PCM-TDDFT is shown to be successful in supporting the analysis of experimental data with useful insights for a better understanding of photophysical and photochemical pathways in solution.
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