Add to ORKGWe simulate subpicosecond charge separation in two donor-acceptor molecular dyads. Charge separation dynamics is described using a quantum master equation, with parameters of the dyad Hamiltonian obtained from density functional theory (DFT) and time-dependent density functional theory (TDDFT) calculations and the rate of energy dissipation estimated from Ehrenfest-TDDFT molecular dynamics simulations. We find that higher-energy charge transfer states must be included in the dyad Hamiltonian in order to obtain agreement of charge separation rates with the experimental values. Our results show that efficient and irreversible charge separation involves both coherent electron transfer from the donor excited state to higher-energy unoccupied st...
International audienceExciton dynamics governs energy transfer and charge generation in organic func...
In organic photovoltaics, the mechanism by which free electrons and holes are generated, overcoming ...
Understanding electronic energy transfer (EET) is an important ingredient in the development of arti...
In organic materials, exciton dissociation into free charges requires overcoming an electron-hole Co...
We study the quantum dissipative dynamics of charge transfer excitons localizing and dissociating at...
Photoinduced electron transfer (ET), hole transfer (HT), charge recombination (CR) and energy transf...
We study incoherent charge separation in a lattice model of an all-organic bilayer. Charge delocaliz...
A series of three perylenemonoimide-p-oligophenylene-dimethylaniline molecular dyads undergo photoin...
Combined electronic structure and quantum dynamical calculations are employed to investigate charge ...
Understanding energy transfer and charge separation after excitation has enormous relevance to biolo...
Electron-hole pairs in organic photovoltaics dissociate efficiently despite their Coulomb-binding en...
We investigate charge transfer in prototypical molecular donor-acceptor compounds using hybrid densi...
Quantum-dynamical simulations are used to investigate the interplay of exciton delocalization and vi...
We use the nonequilibrium Green function (NEGF) method to perform real-time simulations of the ultra...
Quantum-mechanical methods that are both computationally fast and accurate are not yet available for...
International audienceExciton dynamics governs energy transfer and charge generation in organic func...
In organic photovoltaics, the mechanism by which free electrons and holes are generated, overcoming ...
Understanding electronic energy transfer (EET) is an important ingredient in the development of arti...
In organic materials, exciton dissociation into free charges requires overcoming an electron-hole Co...
We study the quantum dissipative dynamics of charge transfer excitons localizing and dissociating at...
Photoinduced electron transfer (ET), hole transfer (HT), charge recombination (CR) and energy transf...
We study incoherent charge separation in a lattice model of an all-organic bilayer. Charge delocaliz...
A series of three perylenemonoimide-p-oligophenylene-dimethylaniline molecular dyads undergo photoin...
Combined electronic structure and quantum dynamical calculations are employed to investigate charge ...
Understanding energy transfer and charge separation after excitation has enormous relevance to biolo...
Electron-hole pairs in organic photovoltaics dissociate efficiently despite their Coulomb-binding en...
We investigate charge transfer in prototypical molecular donor-acceptor compounds using hybrid densi...
Quantum-dynamical simulations are used to investigate the interplay of exciton delocalization and vi...
We use the nonequilibrium Green function (NEGF) method to perform real-time simulations of the ultra...
Quantum-mechanical methods that are both computationally fast and accurate are not yet available for...
International audienceExciton dynamics governs energy transfer and charge generation in organic func...
In organic photovoltaics, the mechanism by which free electrons and holes are generated, overcoming ...
Understanding electronic energy transfer (EET) is an important ingredient in the development of arti...