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Molecular Electronics cover
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Molecular Electronics is self-contained and unified in its presentation. It can be used as a textbook on nanoelectronics by graduate students and advanced undergraduates studying physics and chemistry. In addition, included in this new edition are previously unpublished material that will help researchers gain a deeper understanding into the basic concepts involved in the field of molecular electronics.

Sample Chapter(s)
Chapter 1: The birth of molecular electronics (1,389 KB)


Contents:
  • Preface
  • Acknowledgments
  • Brief History of the Field and Experimental Techniques:
    • The Birth of Molecular Electronics
    • Fabrication of Metallic Atomic-Size Contacts
    • Contacting Single Molecules: Experimental Techniques
  • Theoretical Background:
    • The Scattering Approach to Phase-Coherent Transport in Nanocontacts
    • Introduction to Green's Function Techniques for Systems in Equilibrium
    • Green's Functions and Feynman Diagrams
    • Nonequilibrium Green's Functions Formalism
    • Formulas of the Electrical Current: Exploiting the Keldysh Formalism
    • Electronic Structure I: Tight-Binding Approach
    • Electronic Structure II: Density Functional Theory
  • Metallic Atomic-Size Contacts:
    • The Conductance of a Single Atom
    • Spin-Dependent Transport in Ferromagnetic Atomic Contacts
  • Transport Through Molecular Junctions:
    • Coherent Transport Through Molecular Junctions I: Basic Concepts
    • Coherent Transport Through Molecular Junctions II: Test-Bed Molecules
    • Single-Molecule Transistors: Coulomb Blockade and Kondo Physics
    • Vibrationally-Induced Inelastic Current I: Experiment
    • Vibrationally-Induced Inelastic Current II: Theory
    • The Hopping Regime and Biomolecular Electronics
    • Beyond Electrical Conductance: Shot Noise and Thermal Transport
    • Optical Properties of Current-Carrying Molecular Junctions
    • What is Missing in this Book?
  • Appendix A: Second Quantization
  • Bibliography
  • Index

Readership: Advanced undergraduate and graduate students in nanoscience and nanotechnology, physics, chemistry, nanoelectronics and molecular electronics.

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