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This book is indexed in
Nanotechnology and Nanomaterials
Nanowires
Edited by Paola Prete, ISBN 978-953-7619-79-4, Hard cover, 414 pages, Publisher: InTech, Chapters published February 01, 2010 under CC BY-NC-SA 3.0 license
DOI: 10.5772/3457 
This volume is intended to orient the reader in the fast developing field of semiconductor nanowires, by providing a series of self-contained monographs focusing on various nanowire-related topics. Each monograph serves as a short review of previous results in the literature and description of methods used in the field, as well as a summary of the authors recent achievements on the subject. Each report provides a brief sketch of the historical background behind, the physical and/or chemical principles underlying a specific nanowire fabrication/characterization technique, or the experimental/theoretical methods used to study a given nanowire property or device. Despite the diverse topics covered, the volume does appear as a unit. The writing is generally clear and precise, and the numerous illustrations provide an easier understanding of the phenomena described. The volume contains 20 Chapters covering altogether many (although not all) semiconductors of technological interest, starting with the IV-IV group compounds (SiC and SiGe), carrying on with the binary and ternary compounds of the III-V (GaAs, AlGaAs, GaSb, InAs, GaP, InP, and GaN) and II-VI (HgTe, HgCdTe) families, the metal oxides (CuO, ZnO, ZnCoO, tungsten oxide, and PbTiO3), and finishing with Bi (a semimetal).
- Chapter 1
Cubic SiC Nanowires: Growth, Characterization and Applications - Chapter 2 Heterostructured III-V Nanowires with Mixed Crystal Phases Grown by Au-Assisted Molecular Beam Epitaxy
- Chapter 3 MOVPE Self-Assembly and Physical Properties of Free-Standing III-V Nanowires
- Chapter 4 Molecular Beam Epitaxy Growth of Nanowires in the Hg1-xCdxTe Material System
- Chapter 5 Metal-Oxide Nanowires by Thermal Oxidation Reaction Technique
- Chapter 6 P-Type Phosphorus Doped ZnO Wires for Optoelectronic Applications
- Chapter 7 Lateral Surface Nanowires and Quantum Structures Based on ZnO
- Chapter 8 Characterization of Room-Temperature Ferromagnetic Zn1-xCoxO Nanowires
- Chapter 9 On-Chip Tungsten Oxide Nanowires Based Electrodes for Charge Injection
- Chapter 10 Advanced Electron Microscopy Techniques on Semiconductor Nanowires: from Atomic Density of States Analysis to 3D Reconstruction Models
- Chapter 11 Low Temperature Phase Separation in Nanowires
- Chapter 12 Raman Spectroscopy on Semiconductor Nanowires
- Chapter 13 Phonon Confinement Effect in III-V Nanowires
- Chapter 14 Finite- and Quantum-Size Effects of Bismuth Nanowires
- Chapter 15 Electronic States and Piezoresistivity in Silicon Nanowires
- Chapter 16 Quantum Confinement in Heterostructured Semiconductor Nanowires with Graded Interface
- Chapter 17 Optical Modeling of Photoluminescence of Multilayered Semiconductor Nanostructures: Nanowires, Nanotubes and Nanocables
- Chapter 18 Multi-Physics Properties in Ferroelectric Nanowires and Related Structures from First-Principles
- Chapter 19 Progress Toward Nanowire Device Assembly Technology
- Chapter 20 Technology CAD of Nanowire FinFETs