Graphene Nanoelectronics

From Materials to Circuits

  • Raghu Murali

Table of contents

  1. Front Matter
    Pages i-xii
  2. Ali Khakifirooz, Dimitri A. Antoniadis
    Pages 1-15
  3. Jun Zhu
    Pages 17-49
  4. Raghu Murali
    Pages 51-91
  5. Kosmas Galatsis, Alexander Shailos, Ajey P. Jacob, Kang L. Wang
    Pages 93-111
  6. Shaloo Rakheja, Azad Naeemi
    Pages 113-136
  7. D. Kurt Gaskill, Luke O. Nyakiti
    Pages 137-165
  8. Alfonso Reina, Jing Kong
    Pages 167-203
  9. Alexander Sinitskii, James M. Tour
    Pages 205-234
  10. Nelson Y. Garces, Virginia D. Wheeler, D. Kurt Gaskill
    Pages 235-257
  11. Back Matter
    Pages 259-265

About this book

Introduction

The rapid growth of the electronics industry can be attributed in large part to the scalability of the transistor. Continued scaling of transistor dimensions has enabled increased functionality with each new generation of integrated circuits. Historically, this scaling has followed Moore’s Law – which became a self-fulfilling prophecy – wherein the number of transistors on a chip is doubled every 18-24 months. However, a number of bottlenecks arise beyond c. 2020 that will impede this progress and this will lead to high heat dissipation in ICs, large power consumption, and low chip yield. Thus, beyond c. 2020, the electronics industry needs novel technologies that enable continued increases in chip functionality. Considering that the transition from research to manufacturing can take 10 years or more for novel technologies, there is considerable effort world-wide to identify next-generation enablers for electronics. Graphene is one of the most promising materials to replace Silicon, and this book discusses a number of aspects of graphene for nanoelectronics applications. With the growing interest in this material, this book serves as a spring-board for anyone trying to start working on this topic. The book contains in-depth discussions of graphene properties, transistors, novel state variables, interconnects, growth, and device fabrication.

  •  Describes the transport properties of graphene;
  • Includes a detailed discussion of alternative state variables such as spin and excitons;
  • Provides insight into graphene transistors and interconnects for both analog and digital electronics;
  • Presents the latest advances in graphene growth by various techniques - epitaxial growth, chemical vapor deposition and chemical methods.

Keywords

Graphene Graphene Circuits and Architectures Integrated Circuits and Systems Nanoelectronics Post-CMOS Logic

Editors and affiliations

  • Raghu Murali
    • 1
  1. 1., Nanotechnology Research CenterGeorgia Institute of TechnologyAtlantaUSA

Bibliographic information

  • DOI https://doi.org/10.1007/978-1-4614-0548-1
  • Copyright Information Springer Science+Business Media, LLC 2012
  • Publisher Name Springer, Boston, MA
  • eBook Packages Engineering
  • Print ISBN 978-1-4614-0547-4
  • Online ISBN 978-1-4614-0548-1
  • About this book