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Science and Application of Nanotubes

  • Book
  • © 2002

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Editors:
  1. M. F. Thorpe

    1. Michigan State University, East Lansing

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  2. D. Tománek

    1. Michigan State University, East Lansing

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  3. R. J. Enbody

    1. Michigan State University, East Lansing

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Part of the book series: Fundamental Materials Research (FMRE)

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Table of contents (27 chapters)

  1. Front Matter

    Pages i-xiii
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  2. Morphology, Characterization, and Formation of Nanotubes

    1. Filling Carbon Nanotubes Using an ARC Discharge

      • A. Loiseau, N. Demoncy, O. Stéphan, C. Colliex, H. Pascard
      Pages 1-16

    2. Simulation of STM Images and STS Spectra of Carbon Nanotubes

      • Ph. Lambin, V. Meunier, A. Rubio
      Pages 17-33

    3. Applications Research on Vapor-Grown Carbon Fibers

      • G. G. Tibbetts, J. C. Finegan, J. J. McHugh, J. -M. Ting, D. G. Glasgow, M. L. Lake
      Pages 35-51

    4. The Growth of Carbon and Boron Nitride Nanotubes: A Quantum Molecular Dynamics Study

      • Jean-Christophe Charlier, Xavier Blase, Alessandro DeVita, Roberto Car
      Pages 53-65

    5. Nanoscopic Hybrid Materials: The Synthesis, Structure and Properties of Peapods, Cats and Kin

      • David E. Luzzi, Brian W. Smith
      Pages 67-76

    6. Linear Augmented Cylindrical Wave Method for Nanotubes: Band Structure of [Cu@C20]∞

      • Pavel N. D’yachkov, Oleg M. Kepp
      Pages 77-82

    7. Comparative Study of a Coiled Carbon Nanotube by Atomic Force Microscopy and Scanning Electron Microscopy

      • P. Simonis, A. Volodin, E. Seynaeve, Ph. Lambin, Ch. Van Haesendonck
      Pages 83-91

    8. Investigation of the Deformation of Carbon Nanotube Composites Through the Use of Raman Spectroscopy

      • C.A. Cooper, R.J. Young
      Pages 93-102

    9. Electronic States, Conductance and Localization in Carbon Nanotubes with Defects

      • T. Kostyrko, M. Bartkowiak, G.D. Mahan
      Pages 103-120

    10. Physics of the Metal-Carbon Nanotube Interfaces: Charge Transfers, Fermi-Level “Pinning” and Application to the Scanning Tunneling Spectroscopy

      • Yongqiang Xue, Supriyo Datta
      Pages 121-135

    11. Single Particle Transtort Through Carbon Nanotube Wires: Effect of Defects and Polyhedral Cap

      • M. P. Anantram, T. R. Govindan
      Pages 137-149

    12. Carbon Nanotubes from Oxide Solid Solution: A Way to Composite Powders, Composite Materials and Isolated Nanotubes

      • Christophe Laurent, Alain Peigney, Emmanuel Flahaut, Revathi Bacsa, Abel Rousset
      Pages 151-168

    13. Impulse Heating an Intercalated Compound Using a 27.12 MHz Atmospheric Inductively Coupled Argon Plasma to Produce Nanotubular Structures

      • Thomas J. Manning, Andrea Noel, Mike Mitchell, Angela Miller, William Grow, Greg Gaddy et al.
      Pages 169-180

    14. The Synthesis of Single-Walled Carbon Nanotubes by CVD Catalyzed with Mesoporous MCM-41 Powder

      • Jun Li, Mawlin Foo, Ying Wang, Hou Tee Ng, Stephan Jaenicke, Guoqin Xu et al.
      Pages 181-193

  3. Mechanical and Chemical Properties of Nanotubes

    1. Mechanical Properties and Electronic Transport in Carbon Nanotubes

      • J. Bernholc, M. Buongiorno Nardelli, J.-L. Fattebert, D. Orlikowski, C. Roland, Q. Zhao
      Pages 195-203

    2. Electrochemical Storage of Hydrogen in Carbon Single Wall Nanotubes

      • Christoph Nützenadel, Andreas Züttel, Christophe Emmenegger, Patrick Sudan, Louis Schlapbach
      Pages 205-213

    3. Direct Measurement of Binding Energy Via Adsorption of Methane on SWNT

      • S. Weber, S. Talapatra, C. Journet, A. Migone
      Pages 215-221

  4. Electronic Properties of Nanotubes

    1. Electrical Properties of Carbon Nanotubes: Spectroscopy Localization and Electrical Breakdown

      • Phaedon Avouris, Richard Martel, Hiroya Ikeda, Mark Hersam, Herbert R. Shea, Alain Rochefort
      Pages 223-237

    2. Field Emission of Carbon Nanotubes from Various Tip Structures

      • Jisoon Ihm, Seungwu Han
      Pages 239-251
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About this book

This series of books, which is published at the rate of about one per year, addresses fundamental problems in materials science. The contents cover a broad range of topics from small clusters of atoms to engineering materials and involve chemistry, physics, materials science, and engineering, with length scales ranging from Ångstroms up to millimeters. The emphasis is on basic science rather than on applications. Each book focuses on a single area of current interest and brings together leading experts to give an up-to-date discussion of their work and the work of others. Each article contains enough references that the interested reader can access the relevant literature. Thanks are given to the Center for Fundamental Materials Research at Michigan State University for supporting this series. M. F. Thorpe, Series Editor E-mail: thorpe@pa. msu. edu East Lansing, Michigan V PREFACE It is hard to believe that not quite ten years ago, namely in 1991, nanotubes of carbon were discovered by Sumio Iijima in deposits on the electrodes of the same carbon arc apparatus that was used to produce fullerenes such as the “buckyball”. Nanotubes of carbon or other materials, consisting ofhollow cylinders that are only a few nanometers in diameter, yet up to millimeters long, are amazing structures that self-assemble under extreme conditions. Their quasi-one-dimensional character and virtual absence of atomic defects give rise to a plethora of unusual phenomena.

Editors and Affiliations

  • Michigan State University, East Lansing

    M. F. Thorpe, D. Tománek, R. J. Enbody

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