Carbon Nanotube and Graphene Device Physics
£75.99
- Authors:
- H.-S. Philip Wong, Stanford University
- Deji Akinwande, University of Texas, Austin
- Date Published: December 2010
- availability: Available
- format: Hardback
- isbn: 9780521519052
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Explaining the properties and performance of practical nanotube devices and related applications, this is the first introductory textbook on the subject. All the fundamental concepts are introduced, so that readers without an advanced scientific background can follow all the major ideas and results. Additional topics covered include nanotube transistors and interconnects, and the basic physics of graphene. Problem sets at the end of every chapter allow readers to test their knowledge of the material covered and gain a greater understanding of the analytical skill sets developed in the text. This is an ideal textbook for senior undergraduate and graduate students taking courses in semiconductor device physics and nanoelectronics. It is also a perfect self-study guide for professional device engineers and researchers.
Read more- The first introductory textbook to explain the properties and performance of practical nanotube devices and related applications
- Covers the basic physics of graphene
- Included problem sets at the end of each chapter to aid and test understanding
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×Product details
- Date Published: December 2010
- format: Hardback
- isbn: 9780521519052
- length: 262 pages
- dimensions: 249 x 175 x 18 mm
- weight: 0.66kg
- contains: 125 b/w illus. 10 tables
- availability: Available
Table of Contents
1. Brief history of carbon
2. Electrons in solids
3. Graphene bandstructure
4. Carbon nanotube bandstructure
5. Carbon nanotube and graphene equilibrium properties
6. Ideal quantum electronic properties
7. Carbon nanotube interconnects
8. Carbon nanotube field effect transistors
9. Carbon nanotube diodes and capacitors
10. Synthesis and placement of carbon nanotubes
11. Survey of major applications of carbon nanotubes.-
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Carbon Nanotube and Graphene Device Physics
H.-S. Philip Wong, Deji Akinwande
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