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Springer Handbook of Electronic and Photonic Materials

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Springer Handbook of Electronic and Photonic Materials Cover

 

Synopses & Reviews

Publisher Comments:

The Springer Handbook of Electronic and Photonic Materials has been prepared to give a broad coverage of a wide range of electronic and photonic materials, starting from fundamentals and building up to advanced topics and applications. Its wide coverage with clear illustrations and applications, its chapter sequencing and logical flow, make it very different than other electronic materials handbooks. Each chapter has been prepared either by experts in the field or instructors who have been teaching the subject at a university or in corporate laboratories. The handbook provides an accessible treatment of the material by developing the subject matter in easy steps and in a logical flow. Wherever possible, the sections have been logically sequenced to allow a partial coverage at the beginning of the chapter for those who only need a quick overview of the subject. Additional valuable features include the practical applications used as examples, details on experimental techniques, useful tables that summarize equations, and, most importantly, properties of various materials. The handbook also has an extensive glossary at the end being helpful to those readers whose background may not be directly in the field.   Key Topics   Fundamental Electronic, Optical and Magnetic Properties Materials Growth and Characterization Materials for Electronics Materials for Optoelectronics and Photonics Novel Materials Selected Applications     Features Contains over 600 two-color illustrations Includes over 100 comprehensive tables summarizing equations, experimental techniques and properties of various materials Emphasizes physical concepts over extensive mathematical derivations Parts and chapters with summaries, detailed index and fully searchable CD-ROM guarantee quick access to data and links to other sources Delivers a wealth of up-to-date references Incorporates a detailed Glossary of Terms

Synopsis:

Contributions from well known and respected researchers throughout the world Thorough coverage of electronic and opto-electronic materials that today's electrical engineers, material scientists and physicists need Interdisciplinary approach encompasses research in disciplines such as materials science, electrical engineering, chemical engineering, mechanical engineering, physics and chemistry

Synopsis:

Electronic materials is a truly interdisciplinary subject that encompasses a number of traditional disciplines such as materials science, electrical engineering, chemical engineering, mechanical engineering, physics and chemistry. This unique handbook provides broad coverage of a wide range of electronic and photonic materials, starting from fundamentals and building up to advanced topics and applications. Its wide coverage, with clear illustrations and applications and its chapter sequencing and logical flow, make this a very useful and 'useable' handbook. Each chapter has been prepared either by expert researchers or instructors who have been teaching the subject at a university or in corporate laboratories. Unlike other handbooks that concentrate on a narrow field and have chapters that start at an advanced level, the present handbook starts at a senior-undergraduate level and builds up the subject matter in easy steps and in a logical flow. Wherever possible, the sections are logically sequenced to allow those who need a quick overview of a particular topic immediate access to it. Additional valuable features include the practical applications used as examples, details on experimental techniques, useful tables that summarize equations, and, most importantly, properties of various materials. Each chapter is full of clear color illustrations that convey the concepts and make the subject matter enjoyable to read and understand. An extensive glossary aidsreaders form adjacent fields. The Handbookconstitutes an essential reference for today's electrical engineers, material scientists and physicists.

About the Author

Safa Kasap is currently a Professor and Canada Research Chair in Electronic Materials and Devices in the Electrical Engineering Department at the University of Saskatchewan, Canada. He obtained his BSc (1976), MSc (1978) and PhD (1983) degrees from the Imperial College of Science, Technology and Medicine, University of London, specializing in amorphous semiconductors and chalcogenide glasses. In 1996 he was awarded the DSc (Engineering) from London University for his research contributions to materials science in electrical engineering. He is a Fellow of the Institution of Electrical Engineers, the Institute of Physics and the Institute of Materials. His research interests are in amorphous semiconductors, glasses for photonics, photoconductors, electrical, optical and thermal properties of materials, and related topics, with more than one hundred refereed journal papers in these areas. He is the Deputy Editor of the Journal of Materials Science: Materials in Electronics (Springer), and a Series Editor for the Series on Materials in Electronic and Optoelectronics (Wiley). Peter Capper has worked for the same company (through several name changes) for over 30 years in the area of II-VI compounds for infrared applications, latterly as a Materials Team Leader in charge of group of scientists working on the growth and characterisation of these compounds. This has been mainly in the area of cadmium mercury telluride and cadmium telluride, the premier infrared materials, by a range of bulk and epitaxial techniques. He has given several invited talks in Japan, USA and Europe, has coauthored over 100 Journal papers, holds one patent and has edited/written 5 books in the field since 1987. He is on the Editorial Board of the J. Mater. Sci.: Mater. Electron. (Springer) and is a Series Editor for Wiley on Materials for Electronics and Optoelectronics.

Table of Contents

Each chapter has a concise summary that provides a general overview of the subject in the chapter in a clear language. The chapters begin at fundamentals and build up towards advanced concepts and applications. Emphasis is on physical concepts rather than extensive mathematical derivations. Each chapter is full of clear color illustrations that convey the concepts and make the subject matter enjoyable to read and understand. Examples in the chapters have practical applications. Chapters also have numerous extremely useful tables that summarize equations, experimental techniques, and most importantly, properties of various materials. The chapters have been divided into five parts. Each part has chapters that form a coherent treatment of a given area. Chap. 1 Introduction: Perspectives on Electronic, Optoelectronic, and Photonic Materials Part A: Fundamental Electronic, Optical, and Magnetic Properties Part A contains chapters starting from basic concepts and build up to up-to-date knowledge in a logical easy to follow sequence. Part A would be equivalent to a graduate level treatise that starts from basic structural properties to go onto electrical, dielectric, optical, and magnetic properties. Each chapter starts by assuming someone who has completed a degree in physics, chemistry, engineering, or materials science. Chap. 2 Electrical Conduction in Metals and Semiconductors.- Chap. 3 Optical Properties: Fundamentals and Characterization.- Chap. 4 Magnetic Properties.- Chap. 5 Defects in Monocrystalline Silicon.- Chap. 6 Diffusion in Semiconductors.- Chap. 7 Photoconductivity in Materials Research.- Chap. 8 Electronic Properties of Semiconductor Interfaces.- Chap. 9 Description of Charge Transport in Disordered Materials.- Chap. 10 Dielectric Response — An Overview.- Chap. 11 Ionic Conduction and Applications Part B: Growth and Characterization Part B provides a clear overview of bulk and single-crystal growth, growth techniques (epitaxial crystal growth: LPE, MOVPE, MBE), and the structural, chemical, electrical and thermal characterization of materials. Silicon and II - VI compounds and semiconductors are especially emphasized. Chap. 12 Bulk Crystal Growth.- Chap. 13 Single Crystal Silicon: Growth and Properties.- Chap. 14 Epitaxial Crystal Growth: LPE, MOVPE, MBE.- Chap. 15 II - VI Compounds: Growth.- Chap. 16 Wide Bandgap II - VI Semiconductors: Growth and Properties.- Chap. 17 Structural Characterization.- Chap. 18 Chemical Analysis.- Chap. 19 Thermal Properties and Characterization.- Chap. 20 Electrical Characterization of Semiconductor Materials and Devices Part C: Materials for Electronics Part C covers specific materials such as crystalline Si, microcrystalline Si, GaAs, high-temperature semiconductors, amorphous semiconductors, ferroelectric materials, and thin and thick films. Chap. 21 Single Crystal Silicon.- Chap. 22 Silicon/Germanium.- Chap. 23 Gallium Arsenide.- Chap. 24 High Temperature Electronic Materials: Silicon Carbide and Diamond.- Chap. 25 Amorphous Semiconductors.- Chap. 26 Amorphous and Microcrystalline Silicon - Preparation and Properties for Devices.- Chap. 27 Ferroelectric Materials.- Chap. 28 Dielectric Materials for Microelectronics.- Chap. 29 Thin Films.- Chap. 30 Thick Films Part D: Materials for Optoelectronics and Photonics Part D examines materials that have applications in optoelectronics and photonics. It covers some of the state-of-the-art developments in optoelectronic materials, and covers III - V Ternaries, III-Nitrides, II - VI compounds, quantum wells, photonic crystals, glasses for photonics, nonlinear photonic glasses, nonlinear organic, and luminescent materials. Chap. 31 III - V Ternary and Quaternary Compounds.- Chap. 32 Group III Nitrides.- Chap. 33 Electron Transport Within the III - V Nitride Semiconductors, GaN, AlN, and InN: A Monte Carlo Analysis.- Chap. 34 Cd-based wide bandgap compounds.- Chap. 35 Doping Aspects of Zn-Based Wide Bandgap Semiconductors.- Chap. 36 II - VI Narrow Bandgap Semiconductors: Optoelectronics.- Chap. 37 Optoelectronic Devices and Materials.- Chap. 38 Liquid Crystals.- Chap. 39 Organic Photoconductors.- Chap. 40 Luminescent Materials.- Chap. 41 Nanoengineered Tunable Photonic Crystals in the Near-IR and Visible.- Chap. 42 Quantum Wells, Superlattices and Bandgap Engineering.- Chap. 43 Glasses for Photonic Integration.- Chap. 44 Optical Nonlinearity in Photonic Glasses.- Chap. 45 Nonlinear Optoelectronic Materials Part E: Novel Materials and Selected Applications Part E provides a survey on novel materials and applications such as information recording devices (CD, video, DVD) as well as phase-change optical recording. The chapters also include applications such as solar cells, sensors, photoconductors, and carbon nanotubes. Both ends of the spectrum from research to applications are represented in chapters on molecular electronics and packaging materials. Chap. 46 Solar Cells and Photovoltaics.- Chap. 47 Silicon on Mechanically Flexible Substrates for Large Area Electronics.- Chap. 48 Photoconductors for X-ray Image Detectors.- Chap. 49 Phase-change Optical Recording.- Chap. 50 Carbon Nanotubes and Bucky Materials.- Chap. 51 Magnetic Information Storage Materials.- Chap. 52 High-Temperature Superconductors.- Chap. 53 Molecular Electronics.- Chap. 54 Organic Materials for Chemical Sensing.- Chap. 55 Packaging Materials Glossary of Terms About the Authors Subject Index

Product Details

ISBN:
9780387291857
Publisher:
Springer
Subject:
Material Science
Author:
Capper, Peter
Author:
Koughia, C.
Author:
Kasap, Safa
Subject:
Electronic and Optical Materials
Subject:
Electronics and Microelectronics
Subject:
Materials science.
Subject:
Optoelectronics
Subject:
photonic materials
Subject:
Properties of Electronic Materials
Subject:
Properties of Photonic Materials
Subject:
Solid State Physics
Subject:
Optical and Electronic Materials
Subject:
Electronics and Microelectronics, Instrumentation
Subject:
Spectroscopy and Microscopy
Subject:
Optics, Optoelectronics, Plasmonics and Optical Devices
Subject:
Surfaces and Interfaces, Thin Films
Subject:
main_subject
Subject:
all_subjects
Subject:
Electricity-General Electricity
Copyright:
Edition Description:
2007
Publication Date:
20070801
Binding:
OTHER
Language:
English
Pages:
1438
Dimensions:
254 x 184 mm

Related Subjects

Science and Mathematics » Chemistry » General
Science and Mathematics » Electricity » General Electricity
Science and Mathematics » Electricity » General Electronics
Science and Mathematics » Materials Science » General
Science and Mathematics » Physics » General
Science and Mathematics » Physics » Laser Technology
Science and Mathematics » Physics » Optics
Science and Mathematics » Physics » Solid State Physics
Science and Mathematics » Physics » Spectroscopy

Springer Handbook of Electronic and Photonic Materials
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$ In Stock
Product details 1438 pages Springer - English 9780387291857 Reviews:
"Synopsis" by , Contributions from well known and respected researchers throughout the world Thorough coverage of electronic and opto-electronic materials that today's electrical engineers, material scientists and physicists need Interdisciplinary approach encompasses research in disciplines such as materials science, electrical engineering, chemical engineering, mechanical engineering, physics and chemistry
"Synopsis" by , Electronic materials is a truly interdisciplinary subject that encompasses a number of traditional disciplines such as materials science, electrical engineering, chemical engineering, mechanical engineering, physics and chemistry. This unique handbook provides broad coverage of a wide range of electronic and photonic materials, starting from fundamentals and building up to advanced topics and applications. Its wide coverage, with clear illustrations and applications and its chapter sequencing and logical flow, make this a very useful and 'useable' handbook. Each chapter has been prepared either by expert researchers or instructors who have been teaching the subject at a university or in corporate laboratories. Unlike other handbooks that concentrate on a narrow field and have chapters that start at an advanced level, the present handbook starts at a senior-undergraduate level and builds up the subject matter in easy steps and in a logical flow. Wherever possible, the sections are logically sequenced to allow those who need a quick overview of a particular topic immediate access to it. Additional valuable features include the practical applications used as examples, details on experimental techniques, useful tables that summarize equations, and, most importantly, properties of various materials. Each chapter is full of clear color illustrations that convey the concepts and make the subject matter enjoyable to read and understand. An extensive glossary aidsreaders form adjacent fields. The Handbookconstitutes an essential reference for today's electrical engineers, material scientists and physicists.
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