ISBN-10:
3527411518
ISBN-13:
9783527411511
Pub. Date:
08/26/2013
Publisher:
Wiley
Electrical Conduction in Graphene and Nanotubes / Edition 1

Electrical Conduction in Graphene and Nanotubes / Edition 1

by Shigeji Fujita, Akira Suzuki

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Product Details

ISBN-13: 9783527411511
Publisher: Wiley
Publication date: 08/26/2013
Pages: 306
Product dimensions: 6.70(w) x 9.40(h) x 0.60(d)

About the Author

Shigeji Fujita was awarded his Ph.D. degree in physics from the University of Maryland at College Park in 1960. He subsequently worked as a research assistant and assistant professor at various Japanese and American universities and held visiting appointments at universities around the world. In 1968, he was appointed to a professorship at the Department of Physics of the State University of New York at Buffalo, which is where he still teaches. Professor Fujita conducts research in several areas, among others in equilibrium and non-equilibrium statistical mechanics, the Kinetic Theory of plasmas, gases, liquids and solids, and the Quantum Hall Effect. He has published over 200 articles and eleven books.

Akira Suzuki received his Ph.D. in physics from the University of Reading, UK, in 1982. He subsequently worked as a research associate at Purdue University, USA. In 1985 he joined the Canon Inc. Research Center as a chief scientist. In 1993 he was appointed as an associate professor at the Department of Physics, Tokyo University of Science and was promoted to a full professor in 1999. Professor Suzuki's research interests include nonequilibrium statistical mechanics, applications of thermofield dynamics to open quantum systems, and condensed matter physics (transport theory for graphene and carbon nanotubes among others). He has published over 70 papers and seven books (translations and two books including a book, Foundation of Statistical Thermodynamics).

Table of Contents

1. Introduction
2. Kinetic Theory and Boltzmann Equation
3. Bloch Electron Dynamics
4. Phonons and Electron-Phonon Interaction
5. Electrical Conductivity of Multi-walled Nanotubes
6. Semiconducting SWNT
7. Superconductivity
8. Metallic (or Superconducting) SWNT
9. Magnetic Susceptibility
10.Magnetic Oscillations
11. Quantum Hall Effect
12l.Quantum Hall Effect in Graphene
13. Seebeck Coefficient in Multi-walled Carbon Nanotubes
14. Miscellaneous

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