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cover.jpg
sdarticle.pdf
Series: Contemporary Concepts of Condensed Matter ScienceSeries Editors: E. Burstein, M.L. Cohen, D.L. Mills and P.J. Stiles
sdarticle_001.pdf
bm_title
sdarticle_002.pdf
List of contributors
sdarticle_003.pdf
Contemporary concepts of condensed matter science
sdarticle_004.pdf
Volume preface
sdarticle_005.pdf
Nanotubes: an experimental overview
Introduction
Synthesis
Characterization
Electron Microscopy
Scanning Tunneling and Atomic Force Microscopy
Raman and Optical Spectroscopy
Electronic and Thermal Transport
Applications
Composites
Electronic Devices
Nanoelectromechanical Systems (NEMS)
Conclusion
Acknowledgements
References
sdarticle_006.pdf
Quantum theories for carbon nanotubes
Tight-binding models
pi-sigma Tight-Binding Model
pi Tight-Binding Model
Tight-Binding Model for Geometries and Energetics
Density functional theory
Geometries and Electronic States
Energetics
Electronic Structure of Chiral Carbon Nanotubes
Narrow-Gap Semiconductor Nanotubes
Many-body theories
Band Gap and GW Approximation
Excitons and Optical Spectra
Effective-mass approximation
Perspectives
Acknowledgments
sdarticle_007.pdf
The electronic properties of carbon nanotubes
Semimetallic graphite
Single-walled carbon nanotubes
Further Quantization of the Graphene System
Electronic Properties of Metallic Nanotubes
Electronic Properties of Semiconducting Nanotubes
Intrinsic Semiconducting SWNTs
Doping and Chemical Variability in Semiconducting SWNTs
Many-Electron Effects in Carbon Nanotubes
Optoelectronic Devices
Carbon nanotube aggregates
SWNT Ropes
SWNT Films
Multiwalled Carbon Nanotubes
Disorder in the Nanotube Nomenclature
Electronic applications of carbon nanotubes
Conductive Composites
Electron Emitters
Chemical and Biological Sensors
Notes
sdarticle_008.pdf
Raman spectroscopy of carbon nanotubes
Basic concepts of resonance raman scattering
Resonance Raman spectroscopy of carbon nanotubes
1D van Hove Singularities and the Kataura Plot
Family Patterns
Raman Spectroscopy for Isolated Individual SWNTs
The RBM (n, m) Assignment and the Resonance Window
The G-Band Raman Spectra at the Single Nanotube Level
Setting up the Kataura Plot
The G-Band and the Subband Positions
The RBM and the Kataura Plot
Raman Intensity and Characterization of the (n, m) Population
Characterization of Environmental Effects
Double Resonance Second-Order and Defect-Induced Modes
Double Resonance Scattering
Characterizing Doping from the D and Gprime bands
Other Double Resonance Features
Step-Like Behavior of Dispersive Raman Spectra
Summary
sdarticle_009.pdf
Optical spectroscopy of single-walled carbon nanotubes
Optical spectra
Spectroscopic assignment
Further observations
Spectroscopic applications
SWNT Electronic Structure Eludication
SWNT Sample Characterization
SWNT Detection and Imaging
sdarticle_010.pdf
Structural properties and nanoelectromechanical systems applications
Preparation
Arc-Discharge Method
Laser-Vaporization Methods
Chemical Vapor Deposition
Structural properties
CNTs and Defect Structures
Filled CNTs
Chemical Functionalization of CNT Sidewalls
Mechanical properties
Measurement of Mechanical Properties
Application of Mechanical Properties: Macroscopic Fibers
Nanoelectromechanical systems application
Linear Actuators
Rotary Actuators
Acknowledgment
sdarticle_011.pdf
Low-Energy Electronic Structure of Graphene and its Dirac Theory
Atomically thin graphenes
Effective mass theory for massless electrons
Berry’s phase and Landau quantization
Intravalley and intervalley scattering
Pseudospintronics
Perturbations as Gauge fields
Chiral edge modes and topological insulators
Electron-electron interactions on the Dirac cone
Outlook
sdarticle_012.pdf
sdarticle_013.pdf
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