Silicon Carbide 2008 Materials Processing And Devices


Silicon Carbide 2008 - Materials, Processing and Devices:

Author : Michael Dudley

Publisher : Cambridge University Press

Page : 300 pages

File Size : 28,69 MB

Release : 2014-06-05

Category : Technology & Engineering

ISBN : 9781107408555

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Book Description

Silicon carbide (SiC) is a robust semiconductor material being actively developed for high-power and high-temperature applications, especially in the field of power electronics and sensors for harsh environments. This book, the fifth in a continuing series, focuses on SiC growth, defects, and devices. New developments in the growth of bulk SiC single-crystal materials, advances in the epitaxial growth of SiC, and progress in the characterization of materials properties and defects in SiC are featured. The volume also highlights the development of devices manufactured on this wide-bandgap semiconductor including: innovative device designs; characterization of device and materials properties; and improvements in wide-bandgap processing technology.



Silicon Carbide

Author : Zhe Chuan Feng

Publisher :

Page : 389 pages

File Size : 28,6 MB

Release : 2004

Category : Silicon carbide

ISBN : 9780429209789

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Book Description





Silicon Carbide 2002 - Materials, Processing and Devices: Volume 742

Author : Stephen E. Saddow

Publisher :

Page : 432 pages

File Size : 50,97 MB

Release : 2003-03-25

Category : Technology & Engineering

ISBN :

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Book Description

Advances in silicon carbide materials, processing and device design have recently resulted in implementation of SiC-based electronic systems and offer great promise in high-voltage, high-temperature and high-frequency applications. This volume focuses on new developments in basic science of SiC materials as well as rapidly maturing device technologies. The challenges in this field include understanding and decreasing defect densities in bulk SiC crystals, controlling morphology and residual impurities in epilayers, optimization of implant activation and oxide-SiC interfaces, and developing novel device structures. This book brings together the crystal growers, physicists and device experts needed to continue the rapid pace of silicon-carbide-based technology. Topics include: epitaxial growth; characterization/defects; MOS technology; SiC processing and devices.



Silicon Carbide

Author : Moumita Mukherjee

Publisher : IntechOpen

Page : 560 pages

File Size : 14,23 MB

Release : 2011-10-10

Category : Technology & Engineering

ISBN : 9789533079684

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Book Description

Silicon Carbide (SiC) and its polytypes, used primarily for grinding and high temperature ceramics, have been a part of human civilization for a long time. The inherent ability of SiC devices to operate with higher efficiency and lower environmental footprint than silicon-based devices at high temperatures and under high voltages pushes SiC on the verge of becoming the material of choice for high power electronics and optoelectronics. What is more important, SiC is emerging to become a template for graphene fabrication, and a material for the next generation of sub-32nm semiconductor devices. It is thus increasingly clear that SiC electronic systems will dominate the new energy and transport technologies of the 21st century. In 21 chapters of the book, special emphasis has been placed on the materials aspects and developments thereof. To that end, about 70% of the book addresses the theory, crystal growth, defects, surface and interface properties, characterization, and processing issues pertaining to SiC. The remaining 30% of the book covers the electronic device aspects of this material. Overall, this book will be valuable as a reference for SiC researchers for a few years to come. This book prestigiously covers our current understanding of SiC as a semiconductor material in electronics. The primary target for the book includes students, researchers, material and chemical engineers, semiconductor manufacturers and professionals who are interested in silicon carbide and its continuing progression.



Silicon Carbide

Author : Chuan Feng Zhe

Publisher : CRC Press

Page : 412 pages

File Size : 36,30 MB

Release : 2003-10-30

Category : Technology & Engineering

ISBN : 1591690234

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Book Description

This book will provide useful information to material growers and evaluators, device design and processing engineers as well as potential users of SiC technologies. This book will help identify remaining challenging issues to stimulate further investigation to realize the full potential of wide band gap SiC for optoelectronic and microelectronic applications.





Advances in Silicon Carbide Processing and Applications

Author : Stephen E. Saddow

Publisher : Artech House

Page : 236 pages

File Size : 20,34 MB

Release : 2004

Category : Science

ISBN : 9781580537414

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Book Description

Learn the latest advances in SiC (Silicon Carbide) technology from the leading experts in the field with this new cutting-edge resource. The book is your single source for in-depth information on both SiC device fabrication and system-level applications. This comprehensive reference begins with an examination of how SiC is grown and how defects in SiC growth can affect working devices. Key issues in selective doping of SiC via ion implantation are covered with special focus on implant conditions and electrical activation of implants. SiC applications discussed include chemical sensors, motor-control components, high-temperature gas sensors, and high-temperature electronics. By cutting through the arcane data and jargon surrounding the hype on SiC, this book gives an honest assessment of today's SiC technology and shows you how SiC can be adopted in developing tomorrow's applications.



Silicon Carbide 2004 - Materials, Processing and Devices:

Author : Michael Dudley

Publisher : Cambridge University Press

Page : 340 pages

File Size : 17,32 MB

Release : 2014-06-05

Category : Technology & Engineering

ISBN : 9781107409200

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Book Description

Silicon carbide (SiC) is a wide-bandgap semiconductor that can operate at temperatures well above 300ºC, where silicon cannot perform. In addition, due to a high thermal conductivity equal to copper at room temperature, SiC is an ideal candidate for operation in harsh environments and at high-power levels. Rapid advances in SiC materials and devices have recently resulted in implementation of SiC-based electronic systems, and the impact of these devices is expected to significantly increase in the next several years. This book documents the most recent results on growth of bulk and epitaxial layers, physical and structural properties, process technology, and device development obtained since the 10th International Conference on Silicon Carbide and Related Materials 2003 (ICSCRM2003) held in Lyon, France. Extended defects in silicon carbide are highlighted. The nature of defects induced by forward biasing of bipolar devices, as well as methods to suppress the degradation, are addressed.