International audienceNonadiabatic dynamics simulations in the long timescale (much longer than 10 ps) are the next challenge in computational photochemistry. This paper delimits the scope of what we expect from methods to run such simulations: they should work in full nuclear dimensionality, be general enough to tackle any type of molecule, and not require unrealistic computational resources. We examine the main methodological challenges we should venture to advance the field, including the computational costs of the electronic structure calculations, stability of the integration methods, accuracy of the nonadiabatic dynamics algorithms, and software optimization. Based on simulations designed to shed light on each of these issues, we show...
The theory of electron dynamics solves the time dependent Schrödinger equation and allows to predict...
Efficient calculations of the photophysical properties of molecules are essential for both understan...
Atomistic molecular dynamics can be used for simulating large molecular systems with great accuracy....
International audienceNonadiabatic dynamics simulations in the long timescale (much longer than 10 p...
The processes which occur after molecules absorb light underpin an enormous range of fundamental tec...
2019-02-21Computational modeling of photoexcited molecules provides a fundamental understanding of p...
CONSPECTUS: Recent developments in nonadiabatic dynamics enabled ab inito simulations of complex ult...
The thermal helix inversion (THI) of the overcrowded alkene-based molecular motors determines the sp...
Generating and analyzing the dynamics of molecular systems is a true challenge to molecular simulati...
The simulation of ultrafast photoinduced processes is a fundamental step towards the understanding o...
306 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2007.Cis-trans photoisomerization ...
Nonadiabatic dynamics simulations have rapidly become an indispensable tool for understanding ultraf...
We review state-of-the-art nonadiabatic molecular dynamics methods, with focus on the comparison of ...
The great importance of ultrafast phenomena in photochemistry and photobiology has made dynamics sim...
Nonadiabatic molecular dynamics is an important approach for the study of photochemical phenomena. U...
The theory of electron dynamics solves the time dependent Schrödinger equation and allows to predict...
Efficient calculations of the photophysical properties of molecules are essential for both understan...
Atomistic molecular dynamics can be used for simulating large molecular systems with great accuracy....
International audienceNonadiabatic dynamics simulations in the long timescale (much longer than 10 p...
The processes which occur after molecules absorb light underpin an enormous range of fundamental tec...
2019-02-21Computational modeling of photoexcited molecules provides a fundamental understanding of p...
CONSPECTUS: Recent developments in nonadiabatic dynamics enabled ab inito simulations of complex ult...
The thermal helix inversion (THI) of the overcrowded alkene-based molecular motors determines the sp...
Generating and analyzing the dynamics of molecular systems is a true challenge to molecular simulati...
The simulation of ultrafast photoinduced processes is a fundamental step towards the understanding o...
306 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 2007.Cis-trans photoisomerization ...
Nonadiabatic dynamics simulations have rapidly become an indispensable tool for understanding ultraf...
We review state-of-the-art nonadiabatic molecular dynamics methods, with focus on the comparison of ...
The great importance of ultrafast phenomena in photochemistry and photobiology has made dynamics sim...
Nonadiabatic molecular dynamics is an important approach for the study of photochemical phenomena. U...
The theory of electron dynamics solves the time dependent Schrödinger equation and allows to predict...
Efficient calculations of the photophysical properties of molecules are essential for both understan...
Atomistic molecular dynamics can be used for simulating large molecular systems with great accuracy....