Add to ORKGWe present an ab initio description of charge-carrier mobilities in organic molecular crystals of high purity. Our approach is based on Holstein's original concept of small-polaron bands but generalized with respect to the inclusion of nonlocal electron-phonon coupling. By means of an explicit expression for the mobilities as a function of temperature in combination with ab initio calculations of the material parameters, we demonstrate the predictive power of our theory by applying it to naphthalene. The results show a good qualitative agreement with experiment and provide insight into the difference between electron and hole mobilities as well as their peculiar algebraic and anisotropic temperature dependencie
We propose that the electron transport in crystalline organic semiconductors at room temperature (RT...
This thesis studies the intrinsic properties of organic, inorganic and hybrid materials that are pot...
The main objective of this thesis is to provide a deeper understanding of the charge transport pheno...
We present an ab initio description of charge-carrier mobilities in organic molecular crystals of hi...
Predicting charge transport in organic molecular crystals is notoriously challenging. Carrier mobili...
Predicting the electrical properties of organic molecular crystals (OMCs) is challenging due to thei...
We consider electron-phonon coupling in crystalline organic semiconductors, using naphthalene for ou...
We present a theoretical description of polaron dc conductivities in organic molecular crystals. Our...
Modelling of the charge transport in different types of organic semiconductors (molecular crystals ...
The theories developed since the fifties to describe charge transport in molecular crystals proved t...
We show that the temperature dependence of conductivity of high-mobility organic crystals pentacene ...
Organic materials are currently being examined for their potential use as active conducting media in...
Organic materials are currently being examined for their potential use as active conducting media in...
In this dissertation, we employ a number of computational methods, including Ab Initio, Density Func...
Though research efforts have focused on elucidating the charge transport mechanism in crystalline or...
We propose that the electron transport in crystalline organic semiconductors at room temperature (RT...
This thesis studies the intrinsic properties of organic, inorganic and hybrid materials that are pot...
The main objective of this thesis is to provide a deeper understanding of the charge transport pheno...
We present an ab initio description of charge-carrier mobilities in organic molecular crystals of hi...
Predicting charge transport in organic molecular crystals is notoriously challenging. Carrier mobili...
Predicting the electrical properties of organic molecular crystals (OMCs) is challenging due to thei...
We consider electron-phonon coupling in crystalline organic semiconductors, using naphthalene for ou...
We present a theoretical description of polaron dc conductivities in organic molecular crystals. Our...
Modelling of the charge transport in different types of organic semiconductors (molecular crystals ...
The theories developed since the fifties to describe charge transport in molecular crystals proved t...
We show that the temperature dependence of conductivity of high-mobility organic crystals pentacene ...
Organic materials are currently being examined for their potential use as active conducting media in...
Organic materials are currently being examined for their potential use as active conducting media in...
In this dissertation, we employ a number of computational methods, including Ab Initio, Density Func...
Though research efforts have focused on elucidating the charge transport mechanism in crystalline or...
We propose that the electron transport in crystalline organic semiconductors at room temperature (RT...
This thesis studies the intrinsic properties of organic, inorganic and hybrid materials that are pot...
The main objective of this thesis is to provide a deeper understanding of the charge transport pheno...