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A comprehensive introduction and up-to-date reference to SiC power semiconductor devices covering topics from material properties to applications Based on a number of breakthroughs in SiC material science and fabrication technology in the 1980's and 1990's, the first SiC Schottky barrier diodes (SBDs) were released as commercial products in 2001. The SiC SBD market has grown significantly since that time, and SBDs are now used in a variety of power systems, particularly switch-mode power supplies and motor controls. SiC power MOSFET's entered commercial production in 2011, providing rugged, high
Silicon carbide. --- Semiconductors. --- Integrated circuits.
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The papers cover most of the current research efforts on the wide bandgap semiconductor silicon carbide (SiC) and related materials, and a wide range of topics from crystal growth to their power electronics applications. In these proceedings, the written version of 270 contributed papers and 13 invited papers are included. The major chapters of the proceedings collect papers in the area of bulk growth of SiC, epitaxial growth of SiC, physical properties and characterization, processing, devices and application. There are three shorter chapters on graphene, III-nitrides and related materials.
Silicon carbide --- Carborundum --- Crystolon --- Silundum --- Carbides --- Silicon compounds --- Electric properties
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Carbon-silicon carbide composites. --- Ceramic matrix composites. --- Ceramic fibers. --- Crack propagation. --- Aircraft engines.
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This book brings together the most up-to-date information on the fabrication techniques, properties, and potential applications of low dimensional silicon carbide (SiC) nanostructures such as nanocrystallites, nanowires, nanotubes, and nanostructured films. It also summarizes the tremendous achievements acquired during the past three decades involving structural, electronic, and optical properties of bulk silicon carbide crystals. SiC nanostructures exhibit a range of fascinating and industrially important properties, such as diverse polytypes, stability of interband and defect-related green to blue luminescence, inertness to chemical surroundings, and good biocompatibility. These properties have generated an increasing interest in the materials, which have great potential in a variety of applications across the fields of nanoelectronics, optoelectronics, electron field emission, sensing, quantum information, energy conversion and storage, biomedical engineering, and medicine. SiC is also a most promising substitute for silicon in high power, high temperature, and high frequency microelectronic devices. Recent breakthrough pertaining to the synthesis of ultra-high quality SiC single-crystals will bring the materials closer to real applications. Silicon Carbide Nanostructures: Fabrication, Structure, and Properties provides a unique reference book for researchers and graduate students in this emerging field. It is intended for materials scientists, physicists, chemists, and engineers in microelectronics, optoelectronics, and biomedical engineering.
Nanostructured materials. --- Silicon carbide. --- Carborundum --- Crystolon --- Silundum --- Carbides --- Silicon compounds --- Nanomaterials --- Nanometer materials --- Nanophase materials --- Nanostructure controlled materials --- Nanostructure materials --- Ultra-fine microstructure materials --- Microstructure --- Nanotechnology --- Nanotechnology. --- Mechanics. --- Mechanics, Applied. --- Optical materials. --- Electronics. --- Biomedical engineering. --- Solid Mechanics. --- Optical and Electronic Materials. --- Electronics and Microelectronics, Instrumentation. --- Biomedical Engineering and Bioengineering. --- Molecular technology --- Nanoscale technology --- High technology --- Clinical engineering --- Medical engineering --- Bioengineering --- Biophysics --- Engineering --- Medicine --- Electrical engineering --- Physical sciences --- Optics --- Materials --- Applied mechanics --- Engineering, Mechanical --- Engineering mathematics --- Classical mechanics --- Newtonian mechanics --- Physics --- Dynamics --- Quantum theory --- Electronic materials. --- Microelectronics. --- Microminiature electronic equipment --- Microminiaturization (Electronics) --- Electronics --- Microtechnology --- Semiconductors --- Miniature electronic equipment --- Electronic materials
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Porous silicon is rapidly attracting increasing interest in the biomaterials community. This nanostructured and biodegradable material has a range of properties, making it ideal for drug delivery, cancer therapy, and tissue engineering. Porous silicon for biomedical applications provides a comprehensive review of this emerging biomaterial.Chapters in part one focus on the fundamentals and properties of porous silicon for biomedical applications including thermal properties and stabilization, photochemical and nonthermal chemical modification, protein-modified porous silicon films, and
Biomedical materials. --- Nanoparticles. --- Semiconductors. --- Silicon carbide -- Biotechnology. --- Silicones in medicine --- Biomedical materials --- Porous silicon --- Metalloids --- Biomedical and Dental Materials --- Natural Science Disciplines --- Molecular Probe Techniques --- Miniaturization --- Mechanical Phenomena --- Technology --- Manufactured Materials --- Elements --- Investigative Techniques --- Chemicals and Drugs --- Disciplines and Occupations --- Specialty Uses of Chemicals --- Physical Phenomena --- Analytical, Diagnostic and Therapeutic Techniques and Equipment --- Chemical Actions and Uses --- Phenomena and Processes --- Inorganic Chemicals --- Technology, Industry, and Agriculture --- Technology, Industry, Agriculture --- Biosensing Techniques --- Nanotechnology --- Biocompatible Materials --- Porosity --- Silicon --- Health & Biological Sciences --- Biomedical Engineering --- Silicones in medicine. --- Porous silicon. --- Semiconductors --- Biocompatible materials --- Biomaterials --- Medical materials --- Medicine --- Biomedical engineering --- Materials --- Biocompatibility --- Prosthesis --- Polymers in medicine --- Bioartificial materials --- Hemocompatible materials --- Biomaterials (Biomedical materials)
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