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Hopping conduction in solids
Harald Böttger,V. V. Bryksin +1 more
TLDR
In this article, the authors present a diagram technique for strong electron-phonon coupling in the presence of a magnetic field and the Potts model for percolation problems.Abstract:
Basic Elements of the Theory of Hopping Transport Small Polarons Hopping Conduction in Disordered Systems Classical Hopping Transport Recent Developments Appendix 1. Diagram Technique for Strong Electron-Phonon Coupling Appendix 2. Rate Equation in the Presence of a Magnetic Field Appendix 3. Percolation Problems and the Potts Model References.read more
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Charge transport in organic semiconductors.
Veaceslav Coropceanu,Jérôme Cornil,Demetrio A. da Silva Filho,Yoann Olivier,Robert J. Silbey,Jean-Luc Brédas +5 more
TL;DR: Electronic Coupling in Oligoacene Derivatives: Factors Influencing Charge Mobility, and the Energy-Splitting-in-Dimer Method 3.1.
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Electrochromic tungsten oxide films: Review of progress 1993–1998
TL;DR: In this article, the progress that has taken place since 1993 with regard to film deposition, characterization by physical and chemical techniques, optical properties, as well as electrochromic device assembly and performance is reviewed.
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Universality of ac conduction in disordered solids
Jeppe C. Dyre,Thomas B. Schrøder +1 more
TL;DR: In this paper, it is argued that ac universality reflects an underlying percolation determining dc as well as ac conductivity in the extreme disorder limit, i.e., when the local randomly varying mobilities cover many orders of magnitude.
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The random free-energy barrier model for ac conduction in disordered solids
TL;DR: In this paper, a brief review of the history of ac ionic and electronic conduction in disordered solids is given, followed by a detailed discussion of the simplest possible realistic model: the random free energy barrier model.