Carbon meta-nanotubes : synthesis, properties and applications
Meta-Nanotubes are a new generation of carbon nanotubes (CNTs) which result from the chemical transformation of regular CNTs and their subsequent combination with foreign materials (atoms, molecules, chemical groups, nanocrystals) by various ways such as functionalisation, doping, filling, and subst...
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| Main Author | |
|---|---|
| Format | eBook Book |
| Language | English |
| Published |
West Sussex
John Wiley & Sons
2012
John Wiley & Sons, Incorporated Wiley-Blackwell |
| Edition | 2 |
| Subjects | |
| Online Access | Get full text |
| ISBN | 9780470512821 0470512822 1119954746 9781119954743 |
| DOI | 10.1002/9781119954743 |
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| Abstract | Meta-Nanotubes are a new generation of carbon nanotubes (CNTs) which result from the chemical transformation of regular CNTs and their subsequent combination with foreign materials (atoms, molecules, chemical groups, nanocrystals) by various ways such as functionalisation, doping, filling, and substitution. These new nanomaterials exhibit enhanced or new properties, such as reactivity, solubility, and magnetism, which pristine CNTs do not possess. Their many applications include electronic and optoelectronic devices, chemical and biosensors, solar cells, drug delivery, and reinforced glasses and ceramics. Carbon Meta-Nanotubes: Synthesis, Properties and Applications discusses these third generation carbon nanotubes and the unique characteristics they possess. Beginning with a general overview of the subject, this book covers the five main categories of meta-nanotubes, namely: Doped Carbon Nanotubes Functionalised Carbon Nanotubes Decorated or Coated Carbon Nanotubes Filled Carbon Nanotubes Heterogeneous Nanotubes Providing unparalleled coverage of these third generation or meta-nanotubes, and possibilities for future development, this book is essential for anyone working on carbon nanotubes. |
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| AbstractList | Meta-Nanotubes are a new generation of carbon nanotubes (CNTs) which result from the chemical transformation of regular CNTs and their subsequent combination with foreign materials (atoms, molecules, chemical groups, nanocrystals) by various ways such as functionalisation, doping, filling, and substitution. These new nanomaterials exhibit enhanced or new properties, such as reactivity, solubility, and magnetism, which pristine CNTs do not possess. Their many applications include electronic and optoelectronic devices, chemical and biosensors, solar cells, drug delivery, and reinforced glasses and ceramics. Carbon Meta-Nanotubes: Synthesis, Properties and Applications discusses these third generation carbon nanotubes and the unique characteristics they possess. Beginning with a general overview of the subject, this book covers the five main categories of meta-nanotubes, namely: Doped Carbon Nanotubes Functionalised Carbon Nanotubes Decorated or Coated Carbon Nanotubes Filled Carbon Nanotubes Heterogeneous Nanotubes Providing unparalleled coverage of these third generation or meta-nanotubes, and possibilities for future development, this book is essential for anyone working on carbon nanotubes. |
| Author | Monthioux, Marc |
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| BackLink | https://cir.nii.ac.jp/crid/1130282272064162688$$DView record in CiNii |
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| EISBN | 1119954738 9781119954736 |
| Edition | 2 |
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| Notes | Includes bibliographical references and index |
| OCLC | 773564818 |
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| PublicationDate | 2012 2011 2011-10-18 |
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| PublicationPlace | West Sussex |
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| PublicationYear | 2012 2011 |
| Publisher | John Wiley & Sons John Wiley & Sons, Incorporated Wiley-Blackwell |
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| Snippet | Meta-Nanotubes are a new generation of carbon nanotubes (CNTs) which result from the chemical transformation of regular CNTs and their subsequent combination... |
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| SubjectTerms | Nanostructured materials Nanotubes Organic compounds Organic compounds -- Synthesis |
| TableOfContents | 3 Functionalized Carbon Nanotubes: (X-CNTs) -- 3.1 Introduction -- 3.2 Functionalization Routes -- 3.2.1 Noncovalent Sidewall Functionalization of SWCNTs -- 3.2.2 Covalent Functionalization of SWCNTs -- 3.3 Properties and Applications -- 3.3.1 Electron Transfer Properties and Photovoltaic Applications -- 3.3.2 Chemical Sensors (FET-Based) -- 3.3.3 Opto-Electronic Devices (FET-Based) -- 3.3.4 Biosensors -- 3.4 Conclusion -- References -- 4 Decorated (Coated) Carbon Nanotubes: (X/CNTs) -- 4.1 Introduction -- 4.2 Metal-Nanotube Interactions - Theoretical Aspects -- 4.2.1 Curvature-Induced Effects -- 4.2.2 Effect of Defects and Vacancies on the Metal-Graphite Interactions -- 4.3 Carbon Nanotube Surface Activation -- 4.4 Methods for Carbon Nanotube Coating -- 4.4.1 Deposition from Solution -- 4.4.2 Self-Assembly Methods -- 4.4.3 Electro- and Electrophoretic Deposition -- 4.4.4 Deposition from Gas Phase -- 4.4.5 Nanoparticles Decorating Inner Surfaces of Carbon Nanotubes -- 4.5 Characterization of Decorated Nanotubes -- 4.5.1 Electron Microscopy and X-ray Diffraction -- 4.5.2 Spectroscopic Methods -- 4.5.3 Porosity and Surface Area -- 4.6 Applications of Decorated Nanotubes -- 4.6.1 Sensors -- 4.6.2 Catalysis -- 4.6.3 Fuel Cells -- 4.6.4 Hydrogen Storage -- 4.7 Decorated Nanotubes in Biology and Medicine -- 4.8 Conclusions and Perspectives -- References -- 5 Filled Carbon Nanotubes -- 5.1 Presentation of Chapter 5 -- 5a Filled Carbon Nanotubes: (X@CNTs) -- 5a.1 Introduction -- 5a.2 Synthesis of X@CNTs -- 5a.2.1 A Glimpse at the Past -- 5a.2.2 The Expectations with Filling CNTs -- 5a.2.3 Filling Parameters, Routes and Mechanisms -- 5a.2.4 Materials for Filling -- 5a.2.5 Filling Mechanisms -- 5a.3 Behaviours and Properties -- 5a.3.1 Peculiar in-Tube Behaviour (Diffusion, Coalescence, Crystallization) Acknowledgements -- References -- Index 5a.3.2 Electronic Properties (Transport, Magnetism and Others) -- 5a.4 Applications (Demonstrated or Expected) -- 5a.4.1 Applications that Make Use of Mass Transport Properties -- 5a.4.2 Applications Arising as a Result of Filling -- Acknowledgements -- References -- 5b Fullerenes inside Carbon Nanotubes: The Peapods -- 5b.1 Introduction -- 5b.2 The Discovery of Fullerene Peapods -- 5b.3 Classification of Peapods -- 5b.4 Synthesis and Behavior of Fullerene Peapods -- 5b.4.1 Synthesis of Peapods -- 5b.4.2 Behavior of Peapods under Various Treatments -- 5b.5 Properties of Peapods -- 5b.5.1 Structural Properties -- 5b.5.2 Peapod Band Structure from Theory and Experiment -- 5b.5.3 Transport Properties -- 5b.5.4 Optical Properties -- 5b.5.5 Vibrational Properties -- 5b.5.6 Magnetic Properties -- 5b.6 Applications of Peapods -- 5b.6.1 Demonstrated Applications -- 5b.6.2 Expected Applications -- Acknowledgements -- References -- 6 Heterogeneous Nanotubes: (X*CNTs, X*BNNTs) -- 6.1 Overall Introduction -- 6.2 Pure BN Nanotubes -- 6.2.1 Introduction -- 6.2.2 Synthesis of BN Nanotubes -- 6.2.3 Morphology and Structure of BN Nanotubes -- 6.2.4 Properties of BN Nanotubes -- 6.2.5 Stability of BN Nanotubes to High-Energy Irradiation -- 6.2.6 Boron Nitride Meta-Nanotubes -- 6.2.7 Other BN Nanomaterials -- 6.2.8 Challenging Applications -- 6.3 BxCyNz Nanotubes and Nanofibers -- 6.3.1 Tuning the Electronic Structure with C-Substituted BN Nanotubes -- 6.3.2 Production and Characterization of BxCyNz Nanotubes and Nanofibers -- 6.4 B-Substituted or N-Substituted Carbon Nanotubes -- 6.4.1 Substituting Carbon Nanotubes with B or N -- 6.4.2 Synthesis Strategies for Producing B- or N-Substituted CNTs -- 6.4.3 Morphology and Structure of Substituted CNTs -- 6.4.4 Properties of Substituted CNTs -- 6.4.5 Applications of Substituted CNTs -- 6.5 Perspectives and Future Outlook Intro -- Carbon Meta-Nanotubes: Synthesis, Properties and Applications -- Contents -- List of Contributors -- Foreword -- List of Abbreviations -- Acknowledgements -- Introduction to the Meta-Nanotube Book -- 1 Time for a Third-Generation of Carbon Nanotubes -- 2 Introducing Meta-Nanotubes -- 2.1 Doped Nanotubes (X:CNTs) -- 2.2 Functionalized Nanotubes (X-CNTs) -- 2.3 Decorated (Coated) Nanotubes (X/CNTs) -- 2.4 Filled Nanotubes (X@CNTs) -- 2.5 Heterogeneous Nanotubes (X*CNTs) -- 3 Introducing the Meta-Nanotube Book -- References -- 1 Introduction to Carbon Nanotubes -- 1.1 Introduction -- 1.2 One Word about Synthesizing Carbon Nanotubes -- 1.3 SWCNTs: The Perfect Structure -- 1.4 MWCNTs: The Amazing (Nano)Textural Variety -- 1.5 Electronic Structure -- 1.6 Some Properties of Carbon Nanotubes -- 1.7 Conclusion -- References -- 2 Doped Carbon Nanotubes: (X:CNTs) -- 2.1 Introduction -- 2.1.1 Scope of this Chapter -- 2.1.2 A Few Definitions -- 2.1.3 Doped/Intercalated Carbon Allotropes - a Brief History -- 2.1.4 What Happens upon Doping SWCNTs? -- 2.2 n-Doping of Nanotubes -- 2.2.1 Synthetic Routes for Preparing Doped SWCNTs -- 2.2.2 Crystalline Structure and Chemical Composition of n-Doped Nanotubes -- 2.2.3 Modification of the Electronic Structure of SWCNTs upon Doping -- 2.2.4 Electrical Transport in Doped SWCNTs -- 2.2.5 Spectroscopic Evidence for n-Doping -- 2.2.6 Solutions of Reduced Nanotubes -- 2.3 p-Doping of Carbon Nanotubes -- 2.3.1 p-Doping of SWCNTs with Halogens -- 2.3.2 p-Doping with Acceptor Molecules -- 2.3.3 p-Doping of SWCNTs with FeCl3 -- 2.3.4 p-Doping of SWCNTs with SOCl2 -- 2.3.5 p-Doping of SWCNTs with Acids -- 2.3.6 p-Doping of SWCNTs with Superacids -- 2.3.7 p-Doping with other Oxidizing Agents -- 2.3.8 Diameter Selective Doping -- 2.4 Practical Applications of Doped Nanotubes -- 2.5 Conclusions, Perspectives -- References |
| Title | Carbon meta-nanotubes : synthesis, properties and applications |
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