Add to ORKGWe developed an ab-initio multiscale method for simulation of carrier transport in large disordered systems, based on direct calculation of electronic states and electron-phonon coupling constants. It enabled us to obtain the never seen before rich microscopic details of carrier motion in conjugated polymers, which led us to question several assumptions of phenomenological models, widely used in such systems. The macroscopic mobility of disordered poly(3- hexylthiophene) (P3HT) polymer, extracted from our simulation, is in agreement with experimental results from the literature
The electronic structure of the charge carrier in one of the most commonly used semiconducting polym...
We model charge transport in disordered semiconducting polymers by hopping of charge carriers on a s...
A methodology to link an atomistic description of a polymeric semiconductor with the experimental el...
The electric field dependence of charge carrier transport and the effect of carrier heating in disor...
Conjugated polymers represent a class of materials which exhibit excellent potential as versatile an...
Electronic structure of disordered semiconducting conjugated polymers was studied. Atomic structure ...
We present the results of simulation studies of the dependence on temperature, charge carrier densit...
Disordered or even seemingly amorphous, donor-acceptor type, conjugated copolymers with high charge-...
We model charge transport in disordered semiconducting polymers by hopping of charges on a regular c...
From a numerical solution of the master equation for hopping transport in a disordered energy landsc...
We describe charge transport along a polymer chain with a generic theoretical model depending in pri...
Presented here is a detailed study of electron transport in highly disordered insulating materials (...
Motion of photogenerated charge carriers in p-conjugated polymer films with different disorder and c...
The electronic structure of the charge carrier in one of the most commonly used semiconducting polym...
We model charge transport in disordered semiconducting polymers by hopping of charge carriers on a s...
A methodology to link an atomistic description of a polymeric semiconductor with the experimental el...
The electric field dependence of charge carrier transport and the effect of carrier heating in disor...
Conjugated polymers represent a class of materials which exhibit excellent potential as versatile an...
Electronic structure of disordered semiconducting conjugated polymers was studied. Atomic structure ...
We present the results of simulation studies of the dependence on temperature, charge carrier densit...
Disordered or even seemingly amorphous, donor-acceptor type, conjugated copolymers with high charge-...
We model charge transport in disordered semiconducting polymers by hopping of charges on a regular c...
From a numerical solution of the master equation for hopping transport in a disordered energy landsc...
We describe charge transport along a polymer chain with a generic theoretical model depending in pri...
Presented here is a detailed study of electron transport in highly disordered insulating materials (...
Motion of photogenerated charge carriers in p-conjugated polymer films with different disorder and c...
The electronic structure of the charge carrier in one of the most commonly used semiconducting polym...
We model charge transport in disordered semiconducting polymers by hopping of charge carriers on a s...
A methodology to link an atomistic description of a polymeric semiconductor with the experimental el...