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[...]... 4-1 Introduction • Nanoelectronics – Oriented Carbon Fullerenes • Alignment-Controlled Pristine Carbon Nanotubes Motivation Background • Nano- Electronic – Oriented Carbon Nanotubes • Molecular Electronics Oriented Carbon Nanotubes • Summary and Outlook • Acknowledgments I-1 I-2 Nano and Molecular Electronics Handbook 5 System-Level Design and Simulation of Nanomemories and Nanoprocessors Shamik... r Allowing Electronics to Face the TSI Era Molecular Electronics and Beyond r On Computing Nano- Architectures using unreliable Nanodevices or on Yield-Energy-Delay Logic Designs These chapters focus on nano- and nanoscaled electronics Various practical solutions are reported Section III: Biomolecular Electronics and Processing covers recent innovative results in biomolecular electronics and memories... • Data and Signal Processing Platforms • Microelectronics and Nanoelectronics: Retrospect and Prospect • Performance Estimates • Synthesis Taxonomy in Design of M ICS and Processing Platforms • Bimolecular Processing and Fluidic Molecular Electronics: Neurobiomimetics, Prototyping, and Cognition • Biomolecules and Ion Transport: Communication Energetics Estimates • Applied Information Theory and Information... Self-Assembled Monolayers r Molecular Electronic Computing Architectures r Unimolecular Electronics: Results and Prospects r Carbon Derivatives r System-Level Design and Simulation of Nanomemories and Nanoprocessors r Three-Dimensional Molecular Electronics and Integrated Circuits for Signal and Information Processing Platforms These chapters report the device physics of molecular devices (M devices),... Section III Biomolecular Electronics and Processing 13 Properties of “G-Wire” DNA Thomas Marsh and James Vesenka 13-1 14 Metalloprotein Electronics Andrea Alessandrini and Paolo Facci 14-1 15 Localization and Transport of Charge by Nonlinearity and Spatial Discreteness in Biomolecules and Semiconductor Nanorings... new paradigms, etc.) Molecular and nanoelectronics is a revolutionary theory- and technology-in-progress paradigm The handbook’s chapters document sound fundamentals and feasible technologies, ensuring a balanced coverage and practicality There should be no end to molecular electronics and molecular processing platforms (M PPs), which ensure superior overall performance and functionality that cannot... II Nanoscaled Electronics 7 Inorganic Nanowires in Electronics Bin Yu and M Meyyappan 7-1 8 Quantum Dots in Nanoelectronic Devices Gregory L Snider, Alexei O Orlov, and Craig S Lent 8-1 9 Self Assembly of Nanostructures Using Nanoporous Alumina Templates Bhargava Kanchibotla, Sandipan Pramanik, and Supriyo Bandyopadhyay... Signal/Data Processing and Memory Platforms • Hierarchical Finite-State Machines and Their Use in Hardware and Software Design • Adaptive Defect-Tolerant Molecular Presenting -and- Memory Platforms • Hardware–Software Design • The Design and Synthesis of Molecular Electronic Devices: Molecular Towards Molecular Integrated Circuits • Molecular Integrated Circuits • Modeling and Analysis of Molecular Electronic... Contents Section I Molecular and Nano Electronics: Device- and System-Level 1 Electrical Characterization of Self-Assembled Monolayers Wenyong Wang, Takhee Lee, and Mark A Reed 1-1 2 Molecular Electronic Computing Architectures James M Tour and Dustin K James 2-1 3 Unimolecular Electronics: Results and Prospects Robert... devices, the design of M ICs, and devising M PPs Meaningful results on device- and system-level fundamentals are offered, and envisioned technologies and engineering practices are documented Section II: Nanoscaled Electronics consists of the following six chapters: r Inorganic Nanowires in Electronics r Quantum Dots in Nanoelectronic Devices r Self Assembly of Nanostructures Using Nanoporous Alumina Templates . Orlov, and Craig S. Lent 8-1 9 Self Assembly of Nanostructures Using Nanoporous Alumina Templates Bhargava Kanchibotla, Sandipan Pramanik, and Supriyo Bandyopadhyay 9-1 xiii 10 Neuromorphic Networks. Architectures r Unimolecular Electronics: Results and Prospects r Carbon Derivatives r System-Level Design and Simulation of Nanomemories and Nanoprocessors r Three-Dimensional Molecular Electronics and Integrated. for Cell Signaling and Applications to Bioelectronics Each chapter is of practical importance regarding the envisioned biomolecular platforms, and will help in comprehending significant phenomena in
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Xem thêm: nano and molecular electronics handbook, 2007, p.931, nano and molecular electronics handbook, 2007, p.931, Chapter 1. Electrical Characterization of Self-Assembled Monolayers, Chapter 2. Molecular Electronic Computing Architectures, Chapter 3. Unimolecular Electronics: Results and Prospects, Chapter 5. System-Level Design and Simulation of Nanomemories and Nanoprocessors, Chapter 6. Three-Dimensional Molecular Electronics and Integrated Circuits for Signal and Information Processing Platforms, Chapter 7. Inorganic Nanowires in Electronics, Chapter 8. Quantum Dots in Nanoelectronic Devices, Chapter 9. Self Assembly of Nanostructures Using Nanoporous Alumina Templates, Chapter 10. Neuromorphic Networks of Spiking Neurons, Chapter 11. Allowing Electronics to Face the TSI Era----Molecular Electronics and Beyond, Chapter 12. On Computing Nano-Architectures Using Unreliable Nano-Devices, Chapter 13. Properties of “G-Wire” DNA, Chapter 17. Subneuronal Processing of Information by Solitary Waves and Stochastic Processes, Chapter 18. Electronic and Ionic Conductivities of Microtubules and Actin Filaments, Their Consequences for Cell Signaling and Applications to Bioelectronics, Chapter 19. Simulation Tools in Molecular Electronics, Chapter 20. Theory of Current Rectification, Switching, and a Role of Defects in Molecular Electronic Devices, Chapter 21. Complexities of the Molecular Conductance Problem, Chapter 22. Nanoelectromechanical Oscillator as an Open Quantum System, Chapter 23. Coherent Electron Transport in Molecular Contacts: A Case of Tractable Modeling, Chapter 24. Pride, Prejudice, and Penury of Ab Initio Transport Calculations for Single Molecules, Chapter 26. An Electronic Cotunneling Model of STM-Induced Unimolecular Surface Reactions