, volume 13 , issue 38 , pages 16987

Excited-state calculations with TD-DFT: from benchmarks to simulations in complex environments.

Denis Jacquemin ¹

Benedetta Mennucci ²

Carlo Adamo ³

Hide authors affiliations Show authors affiliations: 3 affiliations

Chimie Et Interdisciplinarité, Synthèse, Analyse, Modélisation (CEISAM), UMR CNRS no. 6230, BP 92208, Université de Nantes, 2, Rue de la Houssinière, 44322 Nantes Cedex 3, France |

Department of Chemistry, University of Pisa, via Risorgimento 35, 56126 Pisa, Italy |

Ecole Nationale Supérieure de Chimie de Paris, Laboratoire LECIME, UMR CNRS-ENSCP no. 7575, 11, rue Pierre et Marie Curie, F-75321 Paris Cedex 05, France |

Publication type: Journal Article

Publication date: 2011-09-01

Royal Society of Chemistry (RSC)

Physical Chemistry Chemical Physics

scimago Q2

wos Q2

SJR: 0.698

CiteScore: 5.3

Impact factor: 2.9

ISSN: 14639076, 14639084

DOI: 10.1039/c1cp22144b

Copy DOI

PubMed ID: 21881657

Physical and Theoretical Chemistry

General Physics and Astronomy

Abstract

In this perspective, we present an overview of recent progress on Time-Dependent Density Functional Theory (TD-DFT) with a specific focus on its accuracy and on models able to take into account environmental effects, including complex media. To this end, we first summarise recent benchmarks and define an average TD-DFT accuracy in reproducing excitation energies when a conventional approach is used. Next, coupling of TD-DFT with models able to account for different kinds of interactions between a central chromophore and nearby chemical objects (solvent, organic cage, metal as well as semi-conducting surface) is investigated. Examples of application to excitation properties are presented, allowing to briefly describe several recent computational strategies. In addition, an extension of TD-DFT to describe a phenomenon involving interacting chromophores, e.g. the electronic energy transfer (EET), is presented to illustrate that this methodology can be applied to processes beyond the vertical excitation. This perspective therefore aims to provide to non-specialists a flavour of recent trends in the field of simulations of excited states in "realistic" situations.

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Jacquemin D., Mennucci B., Adamo C. Excited-state calculations with TD-DFT: from benchmarks to simulations in complex environments. // Physical Chemistry Chemical Physics. 2011. Vol. 13. No. 38. p. 16987.

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RIS |

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RIS Copy

TY - JOUR

DO - 10.1039/c1cp22144b

UR - https://doi.org/10.1039/c1cp22144b

TI - Excited-state calculations with TD-DFT: from benchmarks to simulations in complex environments.

T2 - Physical Chemistry Chemical Physics

AU - Jacquemin, Denis

AU - Mennucci, Benedetta

AU - Adamo, Carlo

PY - 2011

DA - 2011/09/01

PB - Royal Society of Chemistry (RSC)

SP - 16987

IS - 38

VL - 13

PMID - 21881657

SN - 1463-9076

SN - 1463-9084

ER -

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@article{2011_Jacquemin,

author = {Denis Jacquemin and Benedetta Mennucci and Carlo Adamo},

title = {Excited-state calculations with TD-DFT: from benchmarks to simulations in complex environments.},

journal = {Physical Chemistry Chemical Physics},

year = {2011},

volume = {13},

publisher = {Royal Society of Chemistry (RSC)},

month = {sep},

url = {https://doi.org/10.1039/c1cp22144b},

number = {38},

pages = {16987},

doi = {10.1039/c1cp22144b}

}

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Jacquemin, Denis, et al. “Excited-state calculations with TD-DFT: from benchmarks to simulations in complex environments..” Physical Chemistry Chemical Physics, vol. 13, no. 38, Sep. 2011, p. 16987. https://doi.org/10.1039/c1cp22144b.

Publisher

Royal Society of Chemistry (RSC)

Journal

Physical Chemistry Chemical Physics

scimago Q2

wos Q2

SJR

0.698

CiteScore

5.3

Impact factor

2.9

ISSN

14639076 (Print)

14639084 (Electronic)

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