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Graphene : properties, synthesis, and applications /
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
New York. :
Nova Science Publishers,
c2012.
|
| Colección: | Nanotechnology science and technology series.
|
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- ""Library of Congress Cataloging-in-Publication Data""; ""Contents""; ""Preface""; ""An Overview of Tight-binding Method for Two-dimensional Carbon Structures""; ""Abstract""; ""I. Tight-Binding Method""; ""I.1. Introduction""; ""I.2. Secular Equation""; ""II. Carbon Atom""; ""II.1. Introduction""; ""II.2. Hybridization in Carbon Allotropes""; ""II.2.1. sp Hybrid Orbitals""; ""II.2.2. sp2 Hybrid Orbitals""; ""II.2.3. sp3 Hybrid Orbitals""; ""III.3. Vanishing and Non-Vanishing Orbital Interactions based on TB model""; ""III. Energy Band Calculation of Graphene""; ""III.1. Introduction""
- ""III.2. Orbital Hybridization in Graphene""""III.3. Calculation of Bands Using TB""; ""III.4. Calculation of Bands Using TB""; ""IV. Energy Band Calculation of Graphane""; ""IV.1. Introduction""; ""IV.2. Orbital Hybridization in Graphene""; ""IV.3. Electronic Band Structure Calculated Using TB""; ""References""; ""Ballistic Transport In Graphene: A Window Into Relativistic Physics Of Massless Fermions""; ""Abstract""; ""I.Introduction""; ""II.TheTightBindingModelandtheDynamicalApproachtoitsPhysicalProperties""; ""II.1.Thetightbindingmodelonthehoneycomblatticeinanelectricfield""
- ""II.2.Thedynamical“firstquantized�approach""""III.2.Integrationovermomentaandphysicalinterpretationofthe“quasi-Ohmic�behavior""; ""III.3.acfield""; ""IV.RelativisticInvariance:WeylFermions,ParityAnomalyandtheNielsen�NinomiyaTheorem""; ""IV.1.UltrarelativisticfermionsnearDiracpoints""; ""IV.2.Cancellationofultravioletdivergenciesandthechiralsymmetry""; ""IV.3.Higherordersinelectricfield.Wheredoesthelinearresponsebreakdown?""; ""IV.4.acresponseandthethirdharmonicgeneration""; ""V.BeyondLinearResponse:Schwinger�sElectron-HoleCreationRate""
- ""V.1.NumericalsolutionoftheWeylequations""""V.2.Semiclassicalpictureofthecrossovertothenonlinearresponse""; ""VI.EmissionofPhotonsandTransitionIntoElectron-HolePlasma""; ""VI.1.Coulombinteractionandtheformationoftheneutralelectron-holeplasma""; ""VI.2.Detailedcharacterizationoftheemittedradiation""; ""VI.3.Experimentalevidenceofthepaircreation""; ""VII.Discussion,ConclusionsandGeneralizations""; ""Acknowledgments""; ""References""; ""Physical Mechanics of Bilayer Graphene System""; ""Abstract""; ""1. Tuning Field-Induced Energy Gap of Bilayer Graphene via Interlayer Spacing""
- ""1.1. Introduction""""1.2. Results and Discussion""; ""2. Electric and Mechanical Tuning on Epitaxial Bilayer Graphene""; ""2.1. Introduction""; ""2.2. Results and Discussion""; ""References""; ""Study Of Electronic Property Of Graphene Sheet And Its Edges Using Ctafm And Dft""; ""Abstract""; ""1.Introduction""; ""2.ConductingTipAtomicForceMicroscopy(CTAFM)StudiesofGrapheneLayers""; ""3.QuantumChemicalDensityFunctionalTheoryCalculationsonHydrogenTerminatedGraphene""; ""4.Conclusion""; ""References""; ""Chemical Methods for Graphene Synthesis""; ""Abstract""; ""Introduction""