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Carbon Nanotubes: Science and Applications
Auteur(s) : MEYYAPPAN Meyya
Date de parution: 12-2004
Langue : ANGLAIS
290p. 18x26 Hardback
Etat : Disponible chez l'éditeur (délai de livraison : 10 jours)
| Résumé | | Carbon nanotubes, with their extraordinary mechanical and unique electronic properties, have garnered much attention in the past five years. With a broad range of potential applications including nanoelectronics, composites, chemical sensors, biosensors, microscopy, nanoelectromechanical systems, and many more, the scientific community is more motivated than ever to move beyond basic properties and explore the real issues associated with carbon nanotube-based applications. Taking a comprehensive look at this diverse and dynamic subject, this book describes the field's various aspects, including properties, growth, and processing techniques, while focusing on individual major application areas. Well-known authors who practice the craft of carbon nanotubes on a daily basis present an overview on structures and properties, followed by coverage of modeling and simulation efforts, growth by arc discharge, laser ablation, and chemical vapor deposition. Applications become the focal point in chapters on scanning probe microscopy, carbon nanotube-based diodes and transistors, field emission, and the development of chemical and physical sensors, biosensors, and composites. Presenting up-to-date literature citations that express the current state of the science, this book fully explores the development phase of carbon nanotube-based applications. It is a valuable resource for engineers, scientists, researchers, and professionals in a wide range of disciplines whose focus remains on the power and promise of carbon nanotubes. |
| Sommaire | | STRUCTURES AND PROPERTIES OF CARBON NANOTUBES. Bonding of Carbon Atoms. Defect-Free Nanotube. Defective Nanotubes. Electrical Properties. Optical and Optoelectronic Properties. Mechanical and Electromechanical Properties. Magnetic and Electromagnetic Properties. Chemical and Electrochemical Properties. Thermal and Thermoelectric Properties. COMPUTATIONAL NANOTECHNOLOGY OF CARBON NANOTUBES. Multiscale Simulation Techniques for Computational Nanotechnology. Structure and Symmetry. Nanomechanics and Thermal Properties. Chemical Functionalization, Physisorption, and Diffusion in Carbon Nanotubes. Nanoelectronics and Sensors. GROWTH OF CARBON NANOTUBES BY ARC DISCHARGE AND LASER ABLATION. Arc Discharge Production of MWNTs. MWNT Production by Laser Ablation of Graphite. Arc Discharge Production of SWNTs. Arc Discharge Production of DWNTs. SWNT Production by Laser Ablation of Carbon-Metal Target. GROWTH: CVD AND PECVD. Growth Apparatus. Catalyst Preparation. Growth Results. Growth Mechanisms. Modeling and Diagnostics. Challenges and Future Directions. CHARACTERIZATION TECHNIQUES IN CARBON NANOTUBE RESEARCH. Electron Microscopy. Atomic Force and Scanning Tunneling Microscopy. Properties Characterization. Electrical Conductivity Measurements. Thermoelectric Measurements. Raman Spectroscopy. X-Ray Diffraction. APPLICATIONS IN SCANNING PROBE MICROSCOPY. Development of the Atomic Force Microscope and the Role of the Scanning Probe. Mechanical Properties of Carbon Nanotubes in the Context of SPM Applications. Fabrication of Carbon Nanotube Scanning Probes. Applications of Carbon Nanotube Probes. NANOELECTRONICS APPLICATIONS.Carrier Characterization. Doping Methods. SWNT FETs. Intermolecular Metal-Semiconductor SWNT Heterojunctions. SWNT pn Junction as Esaki Diode. Single-Electron Tunneling Devices Using SWNTs. Other Semiconducting SWNT Devices. Transport in Metallic SWNTs. General Remarks on NanoFETs. FIELD EMISSION. Structure and Microstructure of CNT Emitters. Applications of CNT Emitters. CARBON NANOTUBE APPLICATIONS: CHEMICAL AND PHYSICAL SENSORS. Nanotube Chemical Sensors. Carbon Nanotube Physical Sensors and Actuators. APPLICATIONS: BIOSENSORS. Fabrication of Carbon Nanotube Biosensors. Biosensing Applications. APPLICATIONS: COMPOSITES. Nanotube Superiority. Polymer Nanocomposites. Nanotube-Metal Composites. Ceramic Matrix Composites. OTHER APPLICATIONS. Applications in Integrated Circuit Manufacturing. Catalyst Support and Absorbents. Storage/Intercalation of Metals. Membranes and Separation. |
Thèmes :
- Mathematiques & physique / Physique de la matiere condensee / Structure et microstructure, cristallographie
- Mathematiques & physique / Metrologie / Appareillages spécifiques
- Chimie - industries chimiques / Chimie minerale / Chimie des éléments
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