Add to ORKGA theoretical approach for studying charge-carrier and energy diffusion due to long-range hopping in substitutionally disordered solids is presented. Unlike some earlier theories, which invoke a pair approximation to treat back-transfer processes, the current theory makes use of the exact solution to an appropriate single-defect problemone in which long-range jumps into, out of, and between both the defect site and all other active sites in the lattice are explicitly included. From this exact solution a new long-range effective-medium theory is constructed to describe the configurationally averaged transport properties of the disordered system
The two-particle coherent-potential approximation is used to calculate Frenkel-exciton group-velocit...
6 pages, 3 figures, 1 Supplemental Material: 1 one page, 1 figureInternational audienceAt low inject...
A study is made of the dynamical behavior of an electron or exciton undergoing anisotropic hopping o...
We introduce energy-projected equations of motion to treat the diffusive transport of charge carrier...
We consider charge carriers that undergo nearest-neighbor hopping among the sites of a binary random...
We describe an approach for computing the conductivity associated with long-range hopping on energet...
A study of long-range interactions in disordered systems yields a surprising result: Transport can i...
By a mean field aproximation a macroscopic charge transport equation is derived from a hopping model...
This thesis considers several topics in the theory of excitation transport in disordered materials. ...
The low-field mobility μ of a small concentration of charge carriers hopping among a random distribu...
Although the master equation describing long-range random walks on an energetically disordered latti...
The effective-medium theory of transport in disordered systems, whose basis is the replacement of sp...
Photoexcited charge conduction in molecularly-doped polymers can be described in terms of a biased r...
From a hopping rate equation for disordered materials we derive a macroscopic drift-diffusion equati...
We derive a general effective-medium theory for describing biased diffusion on a bond-disordered lat...
The two-particle coherent-potential approximation is used to calculate Frenkel-exciton group-velocit...
6 pages, 3 figures, 1 Supplemental Material: 1 one page, 1 figureInternational audienceAt low inject...
A study is made of the dynamical behavior of an electron or exciton undergoing anisotropic hopping o...
We introduce energy-projected equations of motion to treat the diffusive transport of charge carrier...
We consider charge carriers that undergo nearest-neighbor hopping among the sites of a binary random...
We describe an approach for computing the conductivity associated with long-range hopping on energet...
A study of long-range interactions in disordered systems yields a surprising result: Transport can i...
By a mean field aproximation a macroscopic charge transport equation is derived from a hopping model...
This thesis considers several topics in the theory of excitation transport in disordered materials. ...
The low-field mobility μ of a small concentration of charge carriers hopping among a random distribu...
Although the master equation describing long-range random walks on an energetically disordered latti...
The effective-medium theory of transport in disordered systems, whose basis is the replacement of sp...
Photoexcited charge conduction in molecularly-doped polymers can be described in terms of a biased r...
From a hopping rate equation for disordered materials we derive a macroscopic drift-diffusion equati...
We derive a general effective-medium theory for describing biased diffusion on a bond-disordered lat...
The two-particle coherent-potential approximation is used to calculate Frenkel-exciton group-velocit...
6 pages, 3 figures, 1 Supplemental Material: 1 one page, 1 figureInternational audienceAt low inject...
A study is made of the dynamical behavior of an electron or exciton undergoing anisotropic hopping o...