Nano and Molecular Electronics Handbook

Nano and Molecular Electronics Handbook

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Features

  • Covers the fundamentals, recent innovations, novel solutions, and far-reaching developments
  • Presents sound fundamentals, applied experimental results, and cutting-edge technologies
  • Discusses breakthrough solutions achieved at the device and system levels
  • Shares the results obtained and technologies developed by the field's accomplished experts
  • Summary

    There are fundamental and technological limits of conventional microfabrication and microelectronics. Scaling down conventional devices and attempts to develop novel topologies and architectures will soon be ineffective or unachievable at the device and system levels to ensure desired performance. Forward-looking experts continue to search for new paradigms to carry the field beyond the age of microelectronics, and molecular electronics is one of the most promising candidates. The Nano and Molecular Electronics Handbook surveys the current state of this exciting, emerging field and looks toward future developments and opportunities.

    Molecular and Nano Electronics Explained
    Explore the fundamentals of device physics, synthesis, and design of molecular processing platforms and molecular integrated circuits within three-dimensional topologies, organizations, and architectures as well as bottom-up fabrication utilizing quantum effects and unique phenomena.

    Technology in Progress
    Stay current with the latest results and practical solutions realized for nanoscale and molecular electronics as well as biomolecular electronics and memories. Learn design concepts, device-level modeling, simulation methods, and fabrication technologies used for today's applications and beyond.

    Reports from the Front Lines of Research
    Expert innovators discuss the results of cutting-edge research and provide informed and insightful commentary on where this new paradigm will lead. The Nano and Molecular Electronics Handbook ranks among the most complete and authoritative guides to the past, present, and future of this revolutionary area of theory and technology.

    Table of Contents

    MOLECULAR AND NANO ELECTRONICS: DEVICE- AND SYSTEM-LEVEL
    Electrical Characterization of Self-Assembled Monolayers; Wenyong Wang, Takhee Lee and Mark A. Reed
    Molecular Electronic Computing Architectures; J.M. Tour and D.K. James
    Unimolecular Electronics: Results and Prospects; Robert M. Metzger
    Carbon Derivatives; Rikizo Hatakeyama
    System-Level Design and Simulation of Nanomemories and Nanoprocessors; Shamik Das, Carl A. Picconatto, Garrett S. Rose, Matthew M. Ziegler and James C. Ellenbogen
    Three-Dimensional Molecular Electronics and Integrated Circuits for Signal and Information Processing Platforms; Sergey Edward Lyshevski
    NANOSCALED ELECTRONICS
    Inorganic Nanowires in Electronics; Bin Yu and M. Meyyappan
    Quantum Dots in Nanoelectronic Devices; Gregory L. Snider, Alexei O. Orlov and Craig S. Lent
    Self Assembly of Nanostructures Using Nanoporous Alumina Templates; Bhargava Kanchibotla, Sandipan Pramanik and Supriyo Bandyopadhyay
    Neuromorphic Networks of Spiking Neurons; Giacomo Indiveri and Rodney Douglas
    Allowing Electronics to Face the TSI Era-Molecular Electronics and Beyond; G. F. Cerofolini
    On Computing Nano-Architectures Using Unreliable Nanodevices or On Yield-Energy-Delay Logic Designs; Valeriu Beiu and Walid Ibrahim
    BIOMOLECULAR ELECTRONICS AND PROCESSING
    Properties of "G-Wire" DNA; Thomas Marsh and James Vesenka
    Metalloprotein Electronics; Andrea Alessandrini and Paolo Facci
    Localization and Transport of Charge by Nonlinearity and Spatial Discreteness in Biomolecules and Semiconductor Nanorings. Aharonov-Bohm Effect for Neutral Excitons; F. Palmero, J. Cuevas, F.R. Romero, J.C. Eilbeck, R.A. Römer and J. Dorignac
    Protein-Based Optical Memories; Jeffrey A. Stuart, Robert R. Birge, Mark P. Krebs, Bangwei Xi, William Tetley, Duane L. Marcy, Jeremy F. Koscielecki, and Jason R. Hillebrecht
    Subneuronal Processing of Information by Solitary Waves and Stochastic Processes; Danko D. Georgiev, MD and James F. Glazebrook
    Electronic and Ionic Conductivities of Microtubules and Actin Filaments, Their Consequences for Cell Signaling and Applications to Bioelectronics; Jack A. Tuszynski, Avner Priel, J.A. Brown, Horacio F. Cantiello, John M. Dixon
    MOLECULAR AND NANO ELECTRONICS: DEVICE-LEVEL MODELING AND SIMULATION
    Simulation Tools in Molecular Electronics; Christoph Erlen, Paolo Lugli, Alessandro Pecchia and Aldo Di Carlo
    Theory of Current Rectification, Switching, and a Role of Defects in Molecular Electronic Devices; A.M. Bratkovsky
    Complexities of the Molecular Conductance Problem; Gil Speyer, Richard Akis and David K. Ferry
    Nanoelectromechanical Oscillator as an Open Quantum System; Lev G. Mourokh and Anatoly Yu. Smirnov
    Coherent Electron Transport in Molecular Contacts: A Case of Tractable Modeling; Alexander Onipko and Lyuba Malysheva
    Pride, Prejudice, and Penury of ab initio Transport Calculations for Single Molecules; F. Evers and K. Burke
    Molecular Electronics Devices; Anton Grigoriev and Rajeev Ahuja
    An Electronic Cotunneling Model of STM-Induced Unimolecular Surface Reactions; Vladimiro Mujica, Thorsten Hansen and Mark A. Ratner
    INDEX

     
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