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Iniewski K. (Ed.) Nanoelectronics: Nanowires, Molecular Electronics, and Nanodevices
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The McGraw-Hill Companies, 2011. — 540 p. — ISBN: 0071664483The latest advances in nanoelectronics
This definitive volume addresses the state of the art in nanoelectronics, covering nanowires, molecular electronics, and nanodevices.
Written by global experts in the field, Nanoelectronics discusses cutting-edge techniques and emerging materials, such as carbon nanotubes and quantum dots. This pioneering work offers a comprehensive survey of nanofabrication options for use in next-generation technologies.Nanoelectronics is an emerging, enabling, and multidisciplinary field with a wide range of potential applications. Although no single definition of nanoelectronics exists, it is commonly understood as an ability to control matter on a nanometer scale for the construction of new materials with novel properties (physical, chemical, and biological) and functions (e.g., quantum effects). In recent years, new nanomaterials and device structures have attracted an enormous amount of attention because of their fascinating properties and potential as building blocks for electronics, optoelectronics, and sensor applications.Nanowires
Electrical Properties of Metallic Nanowires for Nanoelectronic Applications
Texture and Microstructure Dependence of Electromigration Defect Nucleation in Damascene Cu
Interconnect Lines Studied In Situ by EBSD
Carbon Nanotube Interconnects in CMOS Integrated Circuits
Progresses and Challenges of Nanowire Integrated CircuitryMolecular Electronics
Printed Organic Electronics: From Materials to Circuits
One-Dimensional Nanostructure-Enabled Chemical Sensing
Cross-Section Fabrication and Analysis of Nanoscale Device Structures and Complex Organic Electronics
Microfabrication and Applications of Nanoparticle-Doped Conductive Polymers
Single-Electron Conductivity in Organic Nanostructures for Transistors and Memories
Recent Developments toward the Synthesis of Supramolecular Bioelectronic NanostructuresNanodevices
New Developments in Nanostructured Electrode Materials for Advanced Li-Ion Batteries
Quantum-Dot Devices Based on Carbon Nanotubes
Individual Carbon Nanotubes as Electromechanical Actuators: Simulations and Initial Experiments
Low-Level Electrical Measurements at the Nanoscale
Nano ESD: Electrostatic Discharge in the Nanoelectronic Era
Nanopackaging
This definitive volume addresses the state of the art in nanoelectronics, covering nanowires, molecular electronics, and nanodevices.
Written by global experts in the field, Nanoelectronics discusses cutting-edge techniques and emerging materials, such as carbon nanotubes and quantum dots. This pioneering work offers a comprehensive survey of nanofabrication options for use in next-generation technologies.Nanoelectronics is an emerging, enabling, and multidisciplinary field with a wide range of potential applications. Although no single definition of nanoelectronics exists, it is commonly understood as an ability to control matter on a nanometer scale for the construction of new materials with novel properties (physical, chemical, and biological) and functions (e.g., quantum effects). In recent years, new nanomaterials and device structures have attracted an enormous amount of attention because of their fascinating properties and potential as building blocks for electronics, optoelectronics, and sensor applications.Nanowires
Electrical Properties of Metallic Nanowires for Nanoelectronic Applications
Texture and Microstructure Dependence of Electromigration Defect Nucleation in Damascene Cu
Interconnect Lines Studied In Situ by EBSD
Carbon Nanotube Interconnects in CMOS Integrated Circuits
Progresses and Challenges of Nanowire Integrated CircuitryMolecular Electronics
Printed Organic Electronics: From Materials to Circuits
One-Dimensional Nanostructure-Enabled Chemical Sensing
Cross-Section Fabrication and Analysis of Nanoscale Device Structures and Complex Organic Electronics
Microfabrication and Applications of Nanoparticle-Doped Conductive Polymers
Single-Electron Conductivity in Organic Nanostructures for Transistors and Memories
Recent Developments toward the Synthesis of Supramolecular Bioelectronic NanostructuresNanodevices
New Developments in Nanostructured Electrode Materials for Advanced Li-Ion Batteries
Quantum-Dot Devices Based on Carbon Nanotubes
Individual Carbon Nanotubes as Electromechanical Actuators: Simulations and Initial Experiments
Low-Level Electrical Measurements at the Nanoscale
Nano ESD: Electrostatic Discharge in the Nanoelectronic Era
Nanopackaging
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