Add to ORKGWe present a scaling theory for charge transport in disordered molecular semiconductors that extends percolation theory by including bonds with conductances close to the percolating one in the random-resistor network representing charge hopping. A general and compact expression is given for the charge mobility for Miller-Abrahams and Marcus hopping on different lattices with Gaussian energy disorder, with parameters determined from numerically exact results. The charge-concentration dependence is universal. The model-specific temperature dependence can be used to distinguish between the hopping models
We present a scaling theory for charge transport in disordered molecular semiconductors that extends...
We recently introduced a scaling theory for charge transport in molecular semiconductors with uncorr...
We recently introduced a scaling theory for charge transport in molecular semiconductors with uncorr...
We present a scaling theory for charge transport in disordered molecular semiconductors that extends...
We present a scaling theory for charge transport in disordered molecular semiconductors that extends...
We recently introduced a scaling theory for charge transport in molecular semiconductors with uncorr...
We recently introduced a scaling theory for charge transport in molecular semiconductors with uncorr...
We recently introduced a scaling theory for charge transport in molecular semiconductors with uncorr...
We present a scaling theory for charge transport in disordered molecular semiconductors that extends...
We present a scaling theory for charge transport in disordered molecular semiconductors that extends...
We present a scaling theory for charge transport in disordered molecular semiconductors that extends...
We present a scaling theory for charge transport in disordered molecular semiconductors that extends...
We present a scaling theory for charge transport in disordered molecular semiconductors that extends...
We present a scaling theory for charge transport in disordered molecular semiconductors that extends...
We present a scaling theory for charge transport in disordered molecular semiconductors that extends...
We present a scaling theory for charge transport in disordered molecular semiconductors that extends...
We recently introduced a scaling theory for charge transport in molecular semiconductors with uncorr...
We recently introduced a scaling theory for charge transport in molecular semiconductors with uncorr...
We present a scaling theory for charge transport in disordered molecular semiconductors that extends...
We present a scaling theory for charge transport in disordered molecular semiconductors that extends...
We recently introduced a scaling theory for charge transport in molecular semiconductors with uncorr...
We recently introduced a scaling theory for charge transport in molecular semiconductors with uncorr...
We recently introduced a scaling theory for charge transport in molecular semiconductors with uncorr...
We present a scaling theory for charge transport in disordered molecular semiconductors that extends...
We present a scaling theory for charge transport in disordered molecular semiconductors that extends...
We present a scaling theory for charge transport in disordered molecular semiconductors that extends...
We present a scaling theory for charge transport in disordered molecular semiconductors that extends...
We present a scaling theory for charge transport in disordered molecular semiconductors that extends...
We present a scaling theory for charge transport in disordered molecular semiconductors that extends...
We present a scaling theory for charge transport in disordered molecular semiconductors that extends...
We present a scaling theory for charge transport in disordered molecular semiconductors that extends...
We recently introduced a scaling theory for charge transport in molecular semiconductors with uncorr...
We recently introduced a scaling theory for charge transport in molecular semiconductors with uncorr...