Different flavors of nonadiabatic molecular dynamics

Agostini, Federica; Curchod, Basile F. E.

doi:10.1002/wcms.1417

Cited by 94 publications

(107 citation statements)

References 171 publications

(345 reference statements)

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“…As in Section 3, in the following we will not systematically list all available methods suitable for non-adiabatic dynamics simulations,but we focus on afew selected examples of what we consider popular approaches and emerging techniques.F or am ore comprehensive overview on the topic, we refer the reader to several excellent recent reviews. [139][140][141][142]…”

Section: Minireviewsmentioning

confidence: 99%

Molecular Photochemistry: Recent Developments in Theory

2020

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Photochemistry is a fascinating branch of chemistry that is concerned with molecules and light. However, the importance of simulating light‐induced processes is reflected also in fields as diverse as biology, material science, and medicine. This Minireview highlights recent progress achieved in theoretical chemistry to calculate electronically excited states of molecules and simulate their photoinduced dynamics, with the aim of reaching experimental accuracy. We focus on emergent methods and give selected examples that illustrate the progress in recent years towards predicting complex electronic structures with strong correlation, calculations on large molecules, describing multichromophoric systems, and simulating non‐adiabatic molecular dynamics over long time scales, for molecules in the gas phase or in complex biological environments.

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Section: Minireviewsmentioning

confidence: 99%

Molecular Photochemistry: Recent Developments in Theory

2020

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“…and photophysics of molecules in their full dimensionality, and often imply to choose a representation for the molecular wavefunction. 3 Most methods for nonadiabatic dynamics start by expressing the molecular wavefunction in the Born-Huang representation, leading to a picture of photochemistry where a nuclear wavefunction evolves on a given potential energy surface and can transfer nuclear amplitude in regions of strong nonadiabaticity to a different electronic state. Within this framework, the most accurate methods represent the electronic structure quantities and the nuclear wavefunctions on a grid and solve the nuclear time-dependent Schrödinger equations in a numerically exact manner.…”

Section: Introductionmentioning

confidence: 99%

A molecular perspective on Tully models for nonadiabatic dynamics

Ibele

Curchod

2020

Phys. Chem. Chem. Phys.

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127

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“…Einen ausführlicheren Überblick über das Thema kann der interessierte Leser in mehreren exzellenten Übersichtsartikeln der letzten Jahre finden. [139][140][141][142]…”

Section: Die Herausforderungen Der Kerndynamikunclassified

Molekulare Photochemie: Moderne Entwicklungen in der theoretischen Chemie

Mai

González

2020

Angewandte Chemie

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Photochemie ist ein faszinierendes Teilgebiet der Chemie, das sich mit der Wechselwirkung von Molekülen und Licht befasst. Die Simulation von lichtinduzierten Prozessen spielt auch in anderen Forschungsgebieten wie Biologie, Materialwissenschaften oder Medizin eine bedeutende Rolle. Dieser Kurzaufsatz beleuchtet die jüngsten Entwicklungen in der theoretischen Chemie, die das Ziel haben, experimentelle Genauigkeit bei der Berechnung von elektronisch angeregten Zuständen von Molekülen und bei der Simulation von deren lichtinduzierten Dynamiken zu erreichen. Wir konzentrieren uns dabei auf neue, aufstrebende Methoden und zeigen ausgewählte Beispiele, welche die Fortschritte der letzten Jahre für folgende Themen aufzeigen: die Voraussage komplexer Elektronenstrukturen mit starker Korrelation, die Berechnung von großen Molekülen, die Beschreibung von multi‐chromophorischen Systemen und die Simulation nicht‐adiabatischer Moleküldynamik auf langen Zeitskalen; dies umfasst Moleküle sowohl in der Gasphase als auch in komplexer biologischer Umgebung.

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Different flavors of nonadiabatic molecular dynamics

Cited by 94 publications

References 171 publications

Molecular Photochemistry: Recent Developments in Theory

Molecular Photochemistry: Recent Developments in Theory

A molecular perspective on Tully models for nonadiabatic dynamics

Molekulare Photochemie: Moderne Entwicklungen in der theoretischen Chemie

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