By a mean field aproximation a macroscopic charge transport equation is derived from a hopping model with long range interaction. The transport coefficients are calculated from microscopic hopping characteristics of the disordered medium
The hopping mobility of charge carriers in disordered org. host-guest systems with a bimodal Gaussia...
The theory of electron transport via hopping between localised states is developed within the framew...
Charge transport in disordered organic semiconductors occurs by hopping of charge carriers between l...
By a mean field approximation a macroscopic charge transport equation is derived from a hopping mode...
From a hopping rate equation for disordered materials we derive a macroscopic drift-diffusion equati...
We model charge transport in disordered semiconducting polymers by hopping of charges on a regular c...
6 pages, 3 figures, 1 Supplemental Material: 1 one page, 1 figureInternational audienceAt low inject...
A theoretical approach for studying charge-carrier and energy diffusion due to long-range hopping in...
The low-field mobility μ of a small concentration of charge carriers hopping among a random distribu...
Photoexcited charge conduction in molecularly-doped polymers can be described in terms of a biased r...
We investigate charge transport in disordered organic host–guest systems with a bimodal Gaussian den...
It is shown that the charge carrier mobility in a positionally and energetically disordered hopping ...
The current-field and conductivity-field characteristics of random r hopping as well as r-E hopping ...
The random walk numerical simulation (RWNS) method is used to compute diffusion coefficients for ho...
The hopping mobility of charge carriers in disordered org. host-guest systems with a bimodal Gaussia...
The theory of electron transport via hopping between localised states is developed within the framew...
Charge transport in disordered organic semiconductors occurs by hopping of charge carriers between l...
By a mean field approximation a macroscopic charge transport equation is derived from a hopping mode...
From a hopping rate equation for disordered materials we derive a macroscopic drift-diffusion equati...
We model charge transport in disordered semiconducting polymers by hopping of charges on a regular c...
6 pages, 3 figures, 1 Supplemental Material: 1 one page, 1 figureInternational audienceAt low inject...
A theoretical approach for studying charge-carrier and energy diffusion due to long-range hopping in...
The low-field mobility μ of a small concentration of charge carriers hopping among a random distribu...
Photoexcited charge conduction in molecularly-doped polymers can be described in terms of a biased r...
We investigate charge transport in disordered organic host–guest systems with a bimodal Gaussian den...
It is shown that the charge carrier mobility in a positionally and energetically disordered hopping ...
The current-field and conductivity-field characteristics of random r hopping as well as r-E hopping ...
The random walk numerical simulation (RWNS) method is used to compute diffusion coefficients for ho...
The hopping mobility of charge carriers in disordered org. host-guest systems with a bimodal Gaussia...
The theory of electron transport via hopping between localised states is developed within the framew...
Charge transport in disordered organic semiconductors occurs by hopping of charge carriers between l...
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