| Description |
1 online resource (684 pages) |
| Contents |
Cover; Title Page; Copyright Page; Contents; Preface; 1 Topological Design of Graphene; 1.1 Introduction; 1.2 Topological Design for Engineering Strength, Morphology, and Toughness of Graphene; 1.2.1 Tuning Strength of Graphene via GBs; 1.2.2 Topological Design for 3D Shapes of Graphene; 1.2.3 Topological Design for Toughening Graphene; 1.3 Applications of Topologically Designed Graphene; 1.3.1 Topologically Designed Graphene Flake to Guide the Growth of Single-Walled Carbon Nanotube (SWCNT); 1.3.2 Topologically Designed Graphene for Novel Energy-Related Applications |
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1.3.3 Topologically Designed Graphene for Multifunctional Materials1.3.4 Topologically Designed Graphene for Biological Applications; 1.4 Fabrication Techniques of Topologically Designed Graphene; 1.5 Outlook; References; 2 Graphene at the Metal-Oxide Interface: A New Approach to Modify the Chemistry of Supported Metals; 2.1 Introduction; 2.2 Fabrication of Model Metal/Graphene/Oxide Samples; 2.3 Effect of Graphene on the Cobalt-Oxide Support Interaction; 2.3.1 Studies under UHV Conditions; 2.3.2 Physicochemical Studies under Gas Atmospheres |
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2.4 Effect of Graphene on the PtCo-Oxide Support Interaction2.4.1 Studies under UHV Conditions; 2.4.2 Physicochemical Studies under O2/H2 Gas Atmospheres; 2.4.3 Preparation and Testing of Powder PtCo/Graphene/ZnO; 2.5 Stability of Graphene; 2.6 Conclusions and Perspectives; References; 3 The Combinatorial Structure of Graphene; 3.1 Basic Definitions and Results; 3.1.1 Relations Among the Basic Parameters; 3.1.2 Kekulé Structures and the Clar and Fries Numbers; 3.1.3 Coloring Structures; 3.2 Kekulé Structures; 3.2.1 Sachs Approach; 3.2.2 Kekulé Structures Giving the Clar and Fries Numbers |
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3.2.3 Pairwise Incompatibility of the Kekulé, Fries, and Clar Numbers for Benzenoids3.2.4 Doping and Kekulé Structures; 3.3 Internal Defects; 3.3.1 Internal Kekulé Structures; 3.3.2 General Patches; 3.3.3 Clusters; 3.4 Curvature; 3.4.1 Curvature and Growth; 3.4.2 Cones; 3.4.3 Curvature 6; 3.4.4 Ruffles; 3.4.5 0-Curvature Clusters and Flatness; 3.4.6 Curvature and Perfect Kekulé Structures; References; 4 Interacting Electrons in Graphene; 4.1 Introduction; 4.2 The Model; 4.2.1 The Non-Interacting Tight-Binding Model; 4.2.2 Mean-Field Theory; 4.2.2.1 Screening and Local Field Effects |
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4.2.2.2 Derivation of the Form Factor4.3 Numerical Implementation; 4.4 Fermi Velocity Renormalization; 4.5 Optical Response; 4.6 Drude Weight; 4.7 Precise QMC Study of Graphene Conductivity; 4.8 Conclusion; 4.9 Acknowledgments; References; 5 Computational Determination of the Properties of Graphene Nanoribbons; 5.1 Computational Material Science; 5.1.1 Application to Low-Dimensional Carbon Nanostructures; 5.1.2 DFT; 5.1.3 An Example Application of DFT; 5.1.4 Periodic Boundary Conditions; 5.1.5 Polyacenes, an Example of a Low-Dimensional Carbon Compound; 5.2 Graphene |
| Notes |
5.2.1 Structure and Fabrication |
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Print version record |
| Subject |
Graphene.
|
|
Graphene
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| Form |
Electronic book
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| Author |
Stauber, Tobias
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| ISBN |
9781119469636 |
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1119469635 |
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