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Small polaron hopping DC conductivity in 3D and 1D disordered materials /

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Triberis, Georgios P. (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Hauppauge, New York : Nova Science Publishers, Inc., [2017]
Colección:Materials science and technologies
Temas:
Acceso en línea:Texto completo
Tabla de Contenidos:
  • SMALL POLARON HOPPING DC CONDUCTIVITY IN 3D AND 1D DISORDERED MATERIALS ; SMALL POLARON HOPPING DC CONDUCTIVITY IN 3D AND 1D DISORDERED MATERIALS ; Contents; Preface; Introduction; Chapter1TheSmallPolaron; Chapter2TheGeneralizedMolecularCrystalModel; Chapter3ThermodynamicsandThermoelectricity; Chapter4The"Microscopic"DCConductivity; 1. TheWeak-DispersionLimit; 2. TheStrong-CouplingandHigh-TemperatureRegime; 3. The"PolaronicCharacter"oftheEnergyDisorder; 4. TheStrong-CouplingandLow-TemperatureRegime; Chapter5PercolationTheory; Chapter6TheDCConductivityin3DDisorderedMaterials.
  • 1. TheTemperatureDependenceoftheConductivity1.1. The3DUncorrelatedHoppingHigh-TemperatureRegime; 1.2. The3DUncorrelatedHoppingLow-TemperatureRegime; 1.3. The3DCorrelatedHoppingHigh-TemperatureRegime; 1.4. The3DCorrelatedHoppingLow-TemperatureRegime; 1.5.ComparisonwithExperiment; 2. TheEffectofEnergy-DependentDensitiesofState; 2.1. The3DUncorrelatedHoppingRegime; 2.2. The3DCorrelatedHoppingRegime; 3. TheFieldDependenceoftheConductivity; 3.1. The3DUncorrelatedHoppingHigh-TemperatureRegime; 3.2. The3DUncorrelatedHoppingLow-TemperatureRegime; 3.3. The3DCorrelatedHoppingHigh-TemperatureRegime.
  • 3.4. The3DCorrelatedHoppingLow-temperatureRegimeChapter7TheDCConductivityin1DDisorderedMaterials; 1. TheTemperatureDependenceoftheConductivity; TheDNA-Case; ConductivePropertiesofDNA; (i)DNAasConductorandSuperconductor; (ii)DNAasaSemiconductor; (iii)DNAasanInsulator; ChargeTransferMechanismalongtheDNADoubleHelix; SmallPolaronHoppingMotioninaDisordered1DMedium:APossibleChargeTransferMechanism; 1.1. The1DUncorrelatedHoppingHigh-TemperatureRegime:ComparisonwithExperiment-TheDNA-caseI; ComparisonwithExperiment; 1.2. The1DUncorrelatedHoppingLow-TemperatureRegime.
  • 1.3. The1DCorrelatedHoppingHigh-TemperatureRegime:ComparisonwithExperiment-TheDNA-caseII ... ComparisonwithExperiment; 1.4. The1DCorrelatedHoppingLow-TemperatureRegime; 2. TheFieldDependenceoftheConductivity; 2.1. The1DUncorrelatedHoppingHigh-TemperatureRegime; 2.2. The1DUncorrelatedHoppingLow-TemperatureRegime; 2.3.ComparisonwithExperiment; 3. TheEffectofCorrelationsontheNon-OhmicConductivity; 3.1. The1DCorrelatedHoppingHigh-TemperatureRegime; 3.2. The1DCorrelatedHoppingLow-TemperatureRegime.; 3.3.ComparisonwithExperiment; 4. DOSandExtentoftheWavefunction:TwoCrucialFactors.
  • 4.1. The1DHigh-TemperatureHoppingRegime4.2. The1DLow-TemperatureHoppingRegime; 4.3. TheConductivity; 4.4. ResultsandDiscussion; I(R). HighTemperatures; II(R). LowTemperatures; Conclusion; Appendices; TheI1,I2,I3,I4Integrals; References; AuthorContactInformation; Index.