Graphene nanoribbons. (2019)

Record Type:

Book

Title:

Graphene nanoribbons. (2019)

Main Title:

Graphene nanoribbons

Further Information:

Note: Edited by Antonio Tejeda, Pierre Seneor, Luis Brey.

Editors:

Tejeda, Antonio
Seneor, Pierre
Brey, Luis

Contents:

Chapter 1: The growth andstructure of epitaxial graphene nanoribbons 1.1 Introduction 1.2 Epitaxial ribbon production 1.2.1 EG Ribbon methods and geometry 1.2.2 Graphene ribbons on vicinal SiC 1.2.3 Sidewall graphene growth 1.3 Summary and future outlook Chapter2: Bottom-up approach for the synthesis of graphene nanoribbons 2.1 Introduction 2.2 Solution-mediated synthesisgraphene nanoribbons 2.2.1 Synthesisof early narrow graphene nanoribbons 2.2.2 Solutionof mediated synthesis of more extended GNRs 2.3 Surface-assisted synthesis of GNRs Chapter3: Spin-orbit in graphene nanoribbons 3.1 Introduction 3.2 Model and method 3.3 Results 3.3.1 Zigzaggraphene nanoribbons 3.3.2 Armchairgraphene nanoribbons 3.4 Summary Chapter4: Emergent quantum matter in graphene nanoribbons 4.1 Introduction 4.2 Modeling GNR 4.3 Emergent phases and zero modes 4.4 Dimerized spin chain 4.5 Magnetic ribbons competing asuperconducting proximity effect 4.6 Experimental probes 4.7 Conclusions and outlook Chapter5: Theory of transport in graphene nanoribbon-based systems 5.1 Introduction 5.2 Description of the systems 5.3 Modeling graphene nanoribbon systems 5.4 Zigzag graphenena noribbons as valley filters 5.5 AA and AB-stacked bilayer nanoribbon flakes 5.6 Twisted bilayer graphene nanoribbons 5.7 Spin-polarized transport in graphenenanoribbons Chapter6: Experimental studies of electronic transport in graphene nanoribbons 6.1 The role of the edges 6.2 Transport regimes in nanoribbons 6.3 Transport studiesChapter 1: The growth andstructure of epitaxial graphene nanoribbons 1.1 Introduction 1.2 Epitaxial ribbon production 1.2.1 EG Ribbon methods and geometry 1.2.2 Graphene ribbons on vicinal SiC 1.2.3 Sidewall graphene growth 1.3 Summary and future outlook Chapter2: Bottom-up approach for the synthesis of graphene nanoribbons 2.1 Introduction 2.2 Solution-mediated synthesisgraphene nanoribbons 2.2.1 Synthesisof early narrow graphene nanoribbons 2.2.2 Solutionof mediated synthesis of more extended GNRs 2.3 Surface-assisted synthesis of GNRs Chapter3: Spin-orbit in graphene nanoribbons 3.1 Introduction 3.2 Model and method 3.3 Results 3.3.1 Zigzaggraphene nanoribbons 3.3.2 Armchairgraphene nanoribbons 3.4 Summary Chapter4: Emergent quantum matter in graphene nanoribbons 4.1 Introduction 4.2 Modeling GNR 4.3 Emergent phases and zero modes 4.4 Dimerized spin chain 4.5 Magnetic ribbons competing asuperconducting proximity effect 4.6 Experimental probes 4.7 Conclusions and outlook Chapter5: Theory of transport in graphene nanoribbon-based systems 5.1 Introduction 5.2 Description of the systems 5.3 Modeling graphene nanoribbon systems 5.4 Zigzag graphenena noribbons as valley filters 5.5 AA and AB-stacked bilayer nanoribbon flakes 5.6 Twisted bilayer graphene nanoribbons 5.7 Spin-polarized transport in graphenenanoribbons Chapter6: Experimental studies of electronic transport in graphene nanoribbons 6.1 The role of the edges 6.2 Transport regimes in nanoribbons 6.3 Transport studies on GNRs 6.3.1 GNRs formedby on-surface synthesis 6.3.2 GNRs made bylithography 6.3.3 GNRs epitaxiallygrown on SiC 6.4 Summary and Conclusion Chapter7: Quantum transport on graphene nanoribbons in the presence of disorder Introduction 7.1 Methods for electronicstructure calculations 7.2 The Landauer-Büttiker quantumtransport model 7.3 Mesoscopic DFT-based transportcalculations of disordered nanoribbons 7.4 Boron and nitrogensubstitutional doping 7.4.1 Electronic and transportproperties in single-doped ribbons 7.4.2 Mesoscopic transport propertiesin randomly-doped ribbons 7.4.3 Topological defects 7.4.4 Covalent adsorption andsp3-type defects 7.4.5 Bilayer graphene nanoribbons 7.5 Magnetotransport in disorderedribbons 7.5.1 Quantum Hall effect ingraphene : Landau levels and edge states 7.5.2 Magnetotransport in disorderednarrow 7.5.3 Spatial chirality breakdown indisordered large graphene ribbons 7.6 Conclusion ; … (more)

Publisher Details:

Bristol : IOP Publishing

Publication Date:

2019

Extent:

1 online resource, illustrations (black and white, and colour)

Subjects:

620.115
Graphene -- Properties
Nanostructured materials -- Properties

Languages:

English

ISBNs:

9780750317016
9780750317009

Related ISBNs:

9780750316996

Notes:

Note: Description based on CIP data; resource not viewed.

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Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).

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Physical Locations:

British Library HMNTS - ELD.DS.476710

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