The computational study of excited states of molecular systems in the condensed phase implies additional complications with respect to analogous studies on isolated molecules. Some of them can be faced by a computational modeling based on a continuum (i.e., implicit) description of the solvent. Among this class of methods, the polarizable continuum model (PCM) has widely been used in its basic formulation to study ground state properties of molecular solutes. The consideration of molecular properties of excited states has led to the elaboration of numerous additional features not present in the PCM basic version. Nonequilibrium effects, state-specific versus linear response quantum mechanical description, analytical gradients, and electronic coupling between solvated chromophores are reviewed in the present contribution. The presentation of some selected computational results shows the potentialities of the approach. © 2010 Springer Science+Business Media B.V.
CITATION STYLE
Cammi, R., Cappelli, C., Mennucci, B., & Tomasi, J. (2010). Properties of excited states of molecules in solution described with continuum solvation models. In Practical Aspects of Computational Chemistry: Methods, Concepts and Applications (pp. 19–36). Springer Netherlands. https://doi.org/10.1007/978-90-481-2687-3_2
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