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This book presents nanotechnology fundamentals and applications in the key research areas of information technology and solar energy: plasmonics, photovoltaics, transparent conducting electrodes, silicon electroplating, and resistive switching.
Nanoscale Applications for Information and Energy Systems presents nanotechnology fundamentals and applications in the key research areas of information technology (electronics and photonics) and alternative (solar) energy: plasmonics, photovoltaics, transparent conducting electrodes, silicon electroplating, and resistive switching. The three major technology areas electronics, photonics, and solar energy are linked on the basis of similar applications of nanostructured materials in research and development. By bridging the materials physics and chemistry at the atomic scale with device and system design, integration, and performance requirements, tutorial chapters from worldwide leaders in the field provide a coherent picture of theoretical and experimental research efforts and technology development in these highly interdisciplinary areas.
Provides an authoritative overview of the current status and future trends of nanoelectronics, photonics, and solar energy Presents broad-ranging tutorials on both theoretical and experimental aspects of key topics in nanotechnology Written by recognized international experts in each area Addresses the needs of both graduate students and nanotechnology "gurus"
Klappentext
Nanoscale Applications for Information and Energy Systems presents nanotechnology fundamentals and applications in the key research areas of information technology (electronics and photonics) and alternative (solar) energy: plasmonics, photovoltaics, transparent conducting electrodes, silicon electroplating, and resistive switching. The three major technology areas electronics, photonics, and solar energy are linked on the basis of similar applications of nanostructured materials in research and development. By bridging the materials physics and chemistry at the atomic scale with device and system design, integration, and performance requirements, tutorial chapters from worldwide leaders in the field provide a coherent picture of theoretical and experimental research efforts and technology development in these highly interdisciplinary areas.
Provides an authoritative overview of the current status and future trends of nanoelectronics, photonics, and solar energy
Presents broad-ranging tutorials on both theoretical and experimental aspects of key topics in nanotechnology
Written by recognized international experts in each area
Addresses the needs of both graduate students and nanotechnology "gurus"
Zusammenfassung
Nanoscale Applications for Information and Energy Systems presents nanotechnology fundamentals and applications in the key research areas of information technology (electronics and photonics) and alternative (solar) energy: plasmonics, photovoltaics, transparent conducting electrodes, silicon electroplating, and resistive switching. The three major technology areas electronics, photonics, and solar energy are linked on the basis of similar applications of nanostructured materials in research and development. By bridging the materials physics and chemistry at the atomic scale with device and system design, integration, and performance requirements, tutorial chapters from worldwide leaders in the field provide a coherent picture of theoretical and experimental research efforts and technology development in these highly interdisciplinary areas.
Inhalt
Preface.- 1. Plasmonic devices for fast optoelectronics and enhanced Raman sensors.- 2. Recent Advances in Nanoplasmonics and Magnetoplasmonics.- 3. Nanoscale Photovoltaics and the Terawatt Challenge.- 4. Carbon Nanotube Assemblies for Transparent Conducting Electrodes.- 5. 2. Recent Advances in Nanoplasmonics and Magnetoplasmonics.- 3. Nanoscale Photovoltaics and the Terawatt Challenge.- 4. Carbon Nanotube Assemblies for Transparent Conducting Electrodes.- 5. Silicon Electroplating for Low Cost Solar Cells and Thin Film Transistors.- 6. Resistive switching models by ion migration in metal oxides.- 7. Exploring Surfaces of Materials with Atomic Force Microscopy.- Index.