Add to ORKGCharge mobility of crystalline organic semiconductors (OSC) is limited by local dynamic disorder. Recently, the charge mobility for several high mobility OSCs, including TIPS-pentacene, were accurately predicted from a density functional theory (DFT) simulation constrained by the crystal structure and the inelastic neutron scattering spectrum, which provide direct measures of the structure and the dynamic disorder in the length scale and energy range of interest. However, the computational expense required for calculating all of the atomic and molecular forces is prohibitive. Here we demonstrate the use of density functional tight binding (DFTB), a semiempirical quantum mechanical method that is 2 to 3 orders of magnitude more efficient tha...
International audienceThe charge mobility of molecular semiconductors is limited by the large fluctu...
The research field of organic electronics experiences tremendous developments since the discovery of...
The mechanism of charge transport (CT) in a 1D atomistic model of an organic semiconductor is invest...
Recent theories suggest that low frequency dynamic intramolecular and intermolecular motions in orga...
Organic semiconductors can improve the performance of wearable electronics, e-skins, and pressure se...
The field of organic electronics has developed tremendously over the last twenty years. The key advan...
The computational assessment of materials through the prediction of molecular and crystal properties...
Charge transport properties of organic single crystals as materials for organic electronic devices a...
In this thesis, we model electronic states, charge transfer and charge transport in organic semicond...
Organic semiconductors (OSCs) have recently received significant attention for their potential use i...
A central challenge of organic semiconductor research is to make cheap, disordered materials that ex...
In the last years, several theoretical models for the simulation of charge transfer in organic semic...
This dissertation is focused on modeling charge-transport in π-conjugated organic materials, which s...
In this dissertation, we employ a number of computational methods, including Ab Initio, Density Func...
The theories developed since the fifties to describe charge transport in molecular crystals proved t...
International audienceThe charge mobility of molecular semiconductors is limited by the large fluctu...
The research field of organic electronics experiences tremendous developments since the discovery of...
The mechanism of charge transport (CT) in a 1D atomistic model of an organic semiconductor is invest...
Recent theories suggest that low frequency dynamic intramolecular and intermolecular motions in orga...
Organic semiconductors can improve the performance of wearable electronics, e-skins, and pressure se...
The field of organic electronics has developed tremendously over the last twenty years. The key advan...
The computational assessment of materials through the prediction of molecular and crystal properties...
Charge transport properties of organic single crystals as materials for organic electronic devices a...
In this thesis, we model electronic states, charge transfer and charge transport in organic semicond...
Organic semiconductors (OSCs) have recently received significant attention for their potential use i...
A central challenge of organic semiconductor research is to make cheap, disordered materials that ex...
In the last years, several theoretical models for the simulation of charge transfer in organic semic...
This dissertation is focused on modeling charge-transport in π-conjugated organic materials, which s...
In this dissertation, we employ a number of computational methods, including Ab Initio, Density Func...
The theories developed since the fifties to describe charge transport in molecular crystals proved t...
International audienceThe charge mobility of molecular semiconductors is limited by the large fluctu...
The research field of organic electronics experiences tremendous developments since the discovery of...
The mechanism of charge transport (CT) in a 1D atomistic model of an organic semiconductor is invest...