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Magnetism in carbon nanostructures /
A comprehensive survey of carbon nanostructure magnetism, emphasizing both the fundamental nature of the field and its groundbreaking nanotechnological applications.
| Clasificación: | Libro Electrónico |
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| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
New York, NY :
Cambridge University Press,
2017.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Cover; Half-title page; Title page; Copyright page; Dedication; Contents; Preface; 1 Magnetic Carbon Nanostructures?; Part I Theories and Methods; 2 Basic Notions of Magnetism; 2.1 Atomic Magnetism; 2.2 Magnetic Coupling between Several Centers; 2.3 Magnetic Order; 3 The Tools: Computational and Experimental Techniques; 3.1 The Tight-Binding and the Hubbard Model; 3.2 Electronic Structure Theory; 3.3 Electron Spin Resonance; 3.4 Vibrating Sample Magnetrometry; 3.5 Superconducting Quantum Interference Devices (SQUIDs); 3.6 Special Topic: Bloch States.
- Part II Carbon and Its Nanoscale Allotropes4 Graphene; 4.1 Geometric Structure of Graphene; 4.2 Electronic Structure of Graphene; 4.3 Bilayer Graphene; 4.4 Landau Levels; 4.5 Graphene Nanoribbons; 5 Carbon Nanotubes; 5.1 Geometric Features of Single-Walled Carbon Nanotubes; 5.2 Electronic Structure of Single-Walled Carbon Nanotubes; 5.3 Densities of States; 5.4 Nanotubes in Magnetic Fields; 5.5 Quantum Transport in Carbon Nanotubes; 5.6 Carbon Nanotubes as Quantum Dots; 6 Fullerenes; 6.1 C[sub(60)]; 6.2 Endohedral Fullerenes; 6.3 Fullerene Crystals; 6.4 Crystalline Polymers of C[sub(60)].
- Part III Spin Effects in Graphene and Carbon Nanotubes7 Magnetic Textures at Edges and Defect Sites; 7.1 Systems Derived from Graphene; 7.2 Voids and Edges; 7.3 Topological Defects in Graphene; 7.4 Truncated Nanotubes; 7.5 Intrinsic Fullerene Magnetism; 8 Spin-Orbit Coupling in Carbon Nanostructures; 8.1 Spin-Orbit Coupling in Graphene; 8.2 Orbital Magnetic Moments of Single-Walled Carbon Nanotubes; 8.3 Spin-Orbit Coupling in Single-Walled Carbon Nanotubes; 8.4 Special Topic I: The Bloch Sphere; 8.5 Special Topic II: The Spin-Orbit Hamiltonian in Spherical Coordinates.
- Part IV Transport Phenomena9 Elements of Spintronics; 9.1 Spin Current; 9.2 Spintronics: Basic Devices; 9.3 Spin Injection; 9.4 Spin Relaxation; 10 Spin Transport in Carbon Nanostructures; 10.1 Graphene Spintronics; 10.2 Estimates of Spin Relaxation Times in Graphene; 10.3 Spin Transport through Few-Electron SWCNT Quantum Dots; 11 Magnetotransport; 11.1 Strong and Weak Localization; 11.2 Negative Magnetoresistance; 11.3 Positive Magnetoresistance: the Case of Massless Fermions; 11.4 The Integer Quantum Hall Effect; 11.5 Quantum Hall Effects in Graphene; Part V Composite Materials.
- 12 Impurities12.1 Magnetic Metallofullerenes; 12.2 Fullerenes with Encapsulated Group-V Elements; 12.3 Magnetism from Charge Transfer in Fullerene-Based Compounds; 12.4 Adatoms on Graphene; 12.5 Hydrogen on Graphene; 12.6 Paramagnetism in Fluorinated Graphene
- or: Graphene Paramagnetism Induced by Adatoms?; 12.7 Spin-Orbit Coupling in Hydrogenated or Fluorinated Graphene; 12.8 Nanotubes with Magnetic Components; 12.9 Special Topic: Some Basics of Quantum Computing; 13 Networks of Carbon Clusters; 13.1 Nanoporous Carbon Magnets; 13.2 Carbon Nanospheres; 13.3 Nanodiamond and Nanographite.