Add to ORKGABSTRACT: By performing microscopic charge transport simulations for a set of crystalline dicyanovinyl-substituted oligothiophenes, we find that the internal acceptor−donor− acceptor molecular architecture combined with thermal fluctuations of dihedral angles results in large variations of local electric fields, substantial energetic disorder, and pronounced Poole−Frenkel behavior, which is unexpected for crystalline compounds. We show that the presence of static molecular dipoles causes large energetic disorder, which is mostly reduced not by compensation of dipole moments in a unit cell but by molecular polarizabilities. In addition, the presence of a well-defined π-stacking direction with strong electronic couplings and short intermolecu...
Organic materials are currently being examined for their potential use as active conducting media in...
Polaronic theories for charge transport in disordered organic solids, particularly molecularly doped...
We present a multi-scale model for charge transport across grain boundaries in molecular electronic ...
By performing microscopic charge transport simulations for a set of crystalline dicyanovinyl-substit...
By performing microscopic charge transport simulations for a set of crystalline dicyanovinyl-substit...
Understanding charge transports in organic films is important for both fundamental science and pract...
The theories developed since the fifties to describe charge transport in molecular crystals proved t...
The main objective of this thesis is to provide a deeper understanding of the charge transport pheno...
We studied the anisotropic charge transport properties of solution-grown organic single crystals bas...
Molecular ordering and charge transport have been studied computationally for 22 conjugated oligomer...
We analyze the relationship among the molecular structure, morphology, percolation network, and char...
We study the effects of molecular ordering on charge transport at the mesoscale level in a layer of ...
The influence of polar species on the transport of charge carriers in molecular solids is reviewed. ...
The in uence of polar species on the transport of charge carriers in molecular solids is reviewed. G...
The field of organic electronics has developed tremendously over the last twenty years. The key advan...
Organic materials are currently being examined for their potential use as active conducting media in...
Polaronic theories for charge transport in disordered organic solids, particularly molecularly doped...
We present a multi-scale model for charge transport across grain boundaries in molecular electronic ...
By performing microscopic charge transport simulations for a set of crystalline dicyanovinyl-substit...
By performing microscopic charge transport simulations for a set of crystalline dicyanovinyl-substit...
Understanding charge transports in organic films is important for both fundamental science and pract...
The theories developed since the fifties to describe charge transport in molecular crystals proved t...
The main objective of this thesis is to provide a deeper understanding of the charge transport pheno...
We studied the anisotropic charge transport properties of solution-grown organic single crystals bas...
Molecular ordering and charge transport have been studied computationally for 22 conjugated oligomer...
We analyze the relationship among the molecular structure, morphology, percolation network, and char...
We study the effects of molecular ordering on charge transport at the mesoscale level in a layer of ...
The influence of polar species on the transport of charge carriers in molecular solids is reviewed. ...
The in uence of polar species on the transport of charge carriers in molecular solids is reviewed. G...
The field of organic electronics has developed tremendously over the last twenty years. The key advan...
Organic materials are currently being examined for their potential use as active conducting media in...
Polaronic theories for charge transport in disordered organic solids, particularly molecularly doped...
We present a multi-scale model for charge transport across grain boundaries in molecular electronic ...