Springer Handbook of Electronic and Photonic Materials (2nd Edition)
The Second, updated Edition of this essential reference book provides a wealth of detail on a wide range of electronic and photonic materials, starting from fundamentals and building up to advanced topics and applications. Its extensive coverage, with clear illustrations and applications, carefully...
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| Main Authors | , |
|---|---|
| Format | eBook Book |
| Language | English |
| Published |
Cham
Springer Nature
2017
Springer Springer International Publishing AG Springer International Publishing |
| Edition | 2 |
| Series | Springer Handbooks |
| Subjects | |
| Online Access | Get full text |
| ISBN | 3319489313 9783319489315 |
| ISSN | 2522-8692 2522-8706 |
| DOI | 10.1007/978-3-319-48933-9 |
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| Abstract | The Second, updated Edition of this essential reference book provides a wealth of detail on a wide range of electronic and photonic materials, starting from fundamentals and building up to advanced topics and applications. Its extensive coverage, with clear illustrations and applications, carefully selected chapter sequencing and logical flow, makes it very different from other electronic materials handbooks. It has been written by professionals in the field and instructors who teach the subject at a university or in corporate laboratories.The Second Edition, includes practical applications used as examples, details of experimental techniques, useful tables that summarize equations, and, most importantly, properties of various materials, as well as an extensive glossary. Along with significant updates to the content and the references, the second edition includes a number of new chapters such as those covering novel materials and selected applications. This handbook is a valuable resource for graduate students, researchers and practicing professionals working in the area of electronic, optoelectronic and photonic materials. |
|---|---|
| AbstractList | This handbook provides broad coverage of a wide range of electronic and photonic materials, starting from fundamentals and building up to advanced topics and applications. The Second, updated Edition of this essential reference book provides a wealth of detail on a wide range of electronic and photonic materials, starting from fundamentals and building up to advanced topics and applications. Its extensive coverage, with clear illustrations and applications, carefully selected chapter sequencing and logical flow, makes it very different from other electronic materials handbooks. It has been written by professionals in the field and instructors who teach the subject at a university or in corporate laboratories.The Second Edition, includes practical applications used as examples, details of experimental techniques, useful tables that summarize equations, and, most importantly, properties of various materials, as well as an extensive glossary. Along with significant updates to the content and the references, the second edition includes a number of new chapters such as those covering novel materials and selected applications. This handbook is a valuable resource for graduate students, researchers and practicing professionals working in the area of electronic, optoelectronic and photonic materials. |
| Author | Capper Peter Kasap Safa |
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| Notes | Previous edition: 2006 Includes bibliographical references and index |
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| Snippet | The Second, updated Edition of this essential reference book provides a wealth of detail on a wide range of electronic and photonic materials, starting from... This handbook provides broad coverage of a wide range of electronic and photonic materials, starting from fundamentals and building up to advanced topics and... |
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| SubjectTerms | Chemistry and Materials Science Electronic Devices Electronics Electronics & Semiconductors Electronics -- Materials Electronics and Microelectronics, Instrumentation General Engineering & Project Administration General References Materials Science Optical and Electronic Materials Optical Materials Optics & Photonics Optics, Lasers, Photonics, Optical Devices Photonics Photonics -- Materials Solid State Physics Spectroscopy and Microscopy Surfaces (Physics) Surfaces and Interfaces, Thin Films |
| TableOfContents | Title Page
Foreword
Preface
Table of Contents
1. Perspectives on Electronic and Photonic Materials
Part I. Fundamental Properties
2. Electrical Conduction in Metals and Semiconductors
3. Optical Properties of Electronic Materials: Fundamentals and Characterization
4. Magnetic Properties: From Traditional to Spintronic
5. Defects in Monocrystalline Silicon
6. Diffusion in Semiconductors
7. Photoconductivity in Materials Research
8. Electronic Properties of Semiconductor Interfaces
9. Charge Transport in Disordered Materials
10. Dielectric Response
11. Ionic Conduction and Applications
Part II. Growth and Characterization
12. Bulk Crystal Growth: Methods and Materials
13. Single-Crystal Silicon: Growth and Properties
14. Epitaxial Crystal Growth: Methods and Materials
15. Narrow Bandgap II-VI Semiconductors: Growth
16. Wide-Bandgap II-VI Semiconductors: Growth and Properties
17. Structural Characterization
18. Surface Chemical Analysis
19. Thermal Properties and Thermal Analysis: Fundamentals, Experimental Techniques and Applications
20. Electrical Characterization of Semiconductor Materials and Devices
Part III. Materials for Electronics
21. Single-Crystal Silicon: Electrical and Optical Properties
22. Silicon-Germanium: Properties, Growth and Applications
23. Temperature-Insensitive Band-Gap III-V Semiconductors: Tl-III-V and III-V-Bi
24. Amorphous Semiconductors: Structure, Optical, and Electrical Properties
25. Amorphous and Microcrystalline Silicon
26. Ferroelectric Materials
27. Dielectric Materials for Microelectronics
28. Thin Films
29. Thick Films
Part IV. Materials for Optoelectronics and Photonics
30. III-V Ternary and Quaternary Compounds
31. Group III Nitrides
32. Electron Transport within III-V Nitride Semiconductors
33. II-IV Semiconductors for Optoelectronics: CdS, CdSe, CdTe
34. II-VI Narrow Bandgap Semiconductors: Optoelectronics
35. Optoelectronic Devices and Materials
36. Liquid Crystals
37. Organic Photoconductors
38. Luminescent Materials
39. Nano-Engineered Tunable Photonic Crystals
40. Quantum Wells, Superlattices, and Band-Gap Engineering
41. Glasses for Photonic Integration
42. Optical Nonlinearity in Photonic Glasses
Part V. Novel Materials and Selected Applications
43. Solar Cells and Photovoltaics
44. Disordered Semiconductors on Mechanically Flexible Substrates for Large-Area Electronics
45. Photoconductors for X-Ray Image Detectors
46. Phase-Change Memory Materials
47. Carbon Nanotubes and Bucky Materials
48. Graphene
49. Magnetic Information-Storage Materials
50. High-Temperature Superconductors
51. Molecular Electronics
52. Organic Materials for Chemical Sensing
53. Packaging Materials
54. Organic Solar Cells
55. Materials for Terahertz Engineering
56. Metamaterials
57. Thermoelectric Materials
58. Transparent Conductive Oxides
59. Inorganic Perovskite Oxides
About the Authors
Detailed Contents
Glossary of Defining Terms
Subject Index 6.7 Diffusion in Group IV Semiconductors -- 6.8 Diffusion in III-V Compounds -- 6.9 Diffusion in II-VI Compounds -- 6.10 Nano Volume Diffusion -- 6.11 Diffusion in Molten Semiconductors -- 6.12 The Meyer-Neldel Rule -- 6.13 Conclusions -- 6.14 General Reading and References -- References -- 7 Photoconductivity in Materials Research -- 7.1 Steady-State Photoconductivity (SSPC) -- 7.2 Constant Photocurrent Method (CPM) and Related Techniques -- 7.3 Steady-State Photocarrier Grating Method (SSPG) -- 7.4 Modulated Photocurrent Spectroscopy (MPC) -- 7.5 Switch-on and Switch-off Transients -- 7.6 Transient Photocurrent Spectroscopy (TPC) -- 7.7 Time-of-Flight (TOF) and Related Techniques -- 7.8 Other Photoconductivity-Related Techniques -- References -- 8 Electronic Properties of Semiconductor Interfaces -- 8.1 Experimental Database -- 8.2 IFIGS-and-Electronegativity Theory -- 8.3 Comparison of Experiment and Theory -- 8.4 Modifications of Schottky Contacts -- 8.5 Graphene Schottky Contacts -- 8.6 Final Remarks -- References -- 9 Charge Transport in Disordered Materials -- 9.1 General Remarks on Charge Transport in Disordered Materials -- 9.2 Charge Transport in Disordered Materials via Extended States -- 9.3 Hopping Charge Transport in Disordered Materials via Localized States -- 9.4 Concluding Remarks -- References -- 10 Dielectric Response -- 10.1 Definition of Dielectric Response -- 10.2 Frequency-Dependent Linear Responses -- 10.3 Information Contained in the Relaxation Response -- 10.4 Charge Transport -- 10.5 Data Presentation -- 10.6 A Few Final Comments -- References -- 11 Ionic Conduction and Applications -- 11.1 Conduction in Ionic Solids -- 11.2 Fast Ion Conduction -- 11.3 Mixed Ionic-Electronic Conduction -- 11.4 Applications -- 11.5 Future Trends -- References -- Part B Growth and Characterization Intro -- Foreword -- Preface -- About the Editors -- List of Authors -- Contents -- List of Abbreviations -- 1 Perspectives on Electronic and Photonic Materials -- 1.1 Tremendous Integration -- 1.2 The Silicon Age -- 1.3 The Compound Semiconductors -- References -- Part A Fundamental Properties -- 2 Electrical Conduction in Metals and Semiconductors -- 2.1 Fundamentals: Drift Velocity, Mobility and Conductivity -- 2.2 Matthiessen's Rule -- 2.3 Resistivity of Metals -- 2.4 Solid Solutions and Nordheim's Rule -- 2.5 Carrier Scattering in Semiconductors -- 2.6 The Boltzmann Transport Equation -- 2.7 Resistivity of Thin Polycrystalline Films -- 2.8 Inhomogeneous Media: Effective Media Approximation -- 2.9 The Hall Effect -- 2.10 High Electric Field Transport -- 2.11 Impact Ionization -- 2.12 Two-Dimensional Electron Gas -- 2.13 One-Dimensional Conductance -- 2.14 The Quantum Hall Effect -- References -- 3 Optical Properties of Electronic Materials: Fundamentals and Characterization -- 3.1 Optical Constants -- 3.2 Refractive Index -- 3.3 Optical Absorption -- 3.4 Optical Characterization -- 3.5 Optical Materials -- References -- 4 Magnetic Properties: From Traditional to Spintronic -- 4.1 Traditional Magnetism -- 4.2 Nonconventional Magnetism and Progress Toward Spintronics and Quantum Devices -- 4.3 Spintronics and Quantum Information Devices -- References -- 5 Defects in Monocrystalline Silicon -- 5.1 Technological Impact of Intrinsic Point Defects Aggregates -- 5.2 Thermophysical Properties of Intrinsic Point Defects -- 5.3 Aggregates of Intrinsic Point Defects -- 5.4 Formation of OSF Ring -- References -- 6 Diffusion in Semiconductors -- 6.1 Basic Concepts -- 6.2 Diffusion Mechanisms -- 6.3 Diffusion Regimes -- 6.4 Internal Electric Fields -- 6.5 Measurement of Diffusion Coefficients -- 6.6 Hydrogen in Semiconductors 20.1 Resistivity -- 20.2 Hall Effect -- 20.3 Capacitance-Voltage Measurements -- 20.4 Current-Voltage Measurements -- 20.5 Charge Pumping -- 20.6 Low-Frequency Noise -- 20.7 Deep-Level Transient Spectroscopy -- References -- Part C Materials for Electronics -- 21 Single-Crystal Silicon: Electrical and Optical Properties -- 21.1 Silicon Basics -- 21.2 Electrical Properties -- 21.3 Optical Properties -- References -- 22 Silicon-Germanium: Properties, Growth and Applications -- 22.1 Physical Properties of Silicon-Germanium -- 22.2 Optical Properties of SiGe -- 22.3 Growth of Silicon-Germanium -- 22.4 Polycrystalline Silicon-Germanium -- References -- 23 Temperature-Insensitive Band-Gap III-V Semiconductors: Tl-III-V and III-V-Bi -- 23.1 Tl-III-V Alloy Semiconductors -- 23.2 III-V-Bi Alloy Semiconductors -- 23.3 Summary -- References -- 24 Amorphous Semiconductors: Structure, Optical, and Electrical Properties -- 24.1 Electronic States -- 24.2 Structural Properties -- 24.3 Optical Properties -- 24.4 Electrical Properties -- 24.5 Light-Induced Phenomena -- 24.6 Nanosized Amorphous Structure -- References -- 25 Amorphous and Microcrystalline Silicon -- 25.1 Reactions in SiH_4 and SiH_4/H_2 Plasmas -- 25.2 Film Growth on a Surface -- 25.3 Defect Density Determination for a-Si:H and c-Si:H -- 25.4 Device Applications -- 25.5 Recent Progress in Material Issues Related to Thin-Film Silicon Solar Cells -- 25.6 Summary -- References -- 26 Ferroelectric Materials -- 26.1 Definitions and Background -- 26.2 Ferroelectric Materials -- 26.3 Ferroelectric Materials Fabrication Technology -- 26.4 Ferroelectric Applications -- References -- 27 Dielectric Materials for Microelectronics -- 27.1 Overview -- 27.2 Gate Dielectrics -- 27.3 Isolation Dielectrics -- 27.4 Capacitor Dielectrics -- 27.5 Interconnect Dielectrics -- 27.6 Summary -- References -- 28 Thin Films 28.1 Deposition Methods -- 28.2 Structure -- 28.3 Properties -- 28.4 Concluding Remarks -- References -- 29 Thick Films -- 29.1 Thick Film Processing -- 29.2 Substrates -- 29.3 Thick Film Materials -- 29.4 Components and Assembly -- 29.5 Sensors -- References -- Part D Materials for Optoelectronics and Photonics -- 30 III-V Ternary and Quaternary Compounds -- 30.1 Introduction to III-V Ternary and Quaternary Compounds -- 30.2 Interpolation Scheme -- 30.3 Structural Parameters -- 30.4 Mechanical, Elastic and Lattice Vibronic Properties -- 30.5 Thermal Properties -- 30.6 Energy Band Parameters -- 30.7 Optical Properties -- 30.8 Carrier Transport Properties -- References -- 31 Group III Nitrides -- 31.1 Crystal Structures of Nitrides -- 31.2 Lattice Parameters of Nitrides -- 31.3 Mechanical Properties of Nitrides -- 31.4 Thermal Properties of Nitrides -- 31.5 Electrical Properties of Nitrides -- 31.6 Optical Properties of Nitrides -- 31.7 Properties of Nitride Alloys -- 31.8 Doped GaN -- 31.9 Defects in GaN -- 31.10 GaN-Based Nanostructures -- 31.11 Summary and Conclusions -- References -- 32 Electron Transport Within III-V Nitride Semiconductors -- 32.1 Electron Transport Within Semiconductors and the Monte Carlo Simulation Approach -- 32.2 Steady-State and Transient Electron Transport Within Bulk Wurtzite GaN, AlN, and InN -- 32.3 Electron Transport Within III-V Nitride Semiconductors: A Review -- 32.4 Conclusions -- References -- 33 II-IV Semiconductors for Optoelectronics: CdS, CdSe, CdTe -- 33.1 Background -- 33.2 Solar Cells -- 33.3 Radiation Detectors -- 33.4 Conclusions -- References -- 34 II-VI Narrow Bandgap Semiconductors: Optoelectronics -- 34.1 Overview -- 34.2 Applications and Sensor Design -- 34.3 Photoconductive Detectors in HgCdTe -- 34.4 Sprite Detectors -- 34.5 Introduction to Photovoltaic Devices in HgCdTe 12 Bulk Crystal Growth: Methods and Materials -- 12.1 Background -- 12.2 History -- 12.3 Techniques -- 12.4 Materials Grown -- 12.5 Conclusions -- References -- 13 Single-Crystal Silicon: Growth and Properties -- 13.1 Overview -- 13.2 Starting Materials -- 13.3 Single-Crystal Growth -- 13.4 New Crystal Growth Methods -- References -- 14 Epitaxial Crystal Growth: Methods and Materials -- 14.1 Liquid-Phase Epitaxy (LPE) -- 14.2 Metal Organic Chemical Vapor Deposition -- 14.3 Molecular Beam Epitaxy (MBE) -- References -- 15 Narrow Bandgap II-VI Semiconductors: Growth -- 15.1 Bulk Growth Techniques -- 15.2 Liquid Phase Epitaxy (LPE) -- 15.3 Metal-Organic Vapor Phase Epitaxy (MOVPE) -- 15.4 Molecular Beam Epitaxy (MBE) -- 15.5 Alternatives to MCT -- References -- 16 Wide-Bandgap II-VI Semiconductors: Growth and Properties -- 16.1 Crystal Properties -- 16.2 Epitaxial Growth -- 16.3 Bulk Crystal Growth -- 16.4 Conclusions -- References -- 17 Structural Characterization -- 17.1 Radiation-Material Interactions -- 17.2 Particle-Material Interactions -- 17.3 X-ray Diffraction -- 17.4 Optics, Imaging and Electron Diffraction -- 17.5 Characterizing Functional Activity -- 17.6 Sample Preparation -- 17.7 Case Studies - Complementary Characterization of Electronic and Optoelectronic Materials -- 17.8 Concluding Remarks -- References -- 18 Surface Chemical Analysis -- 18.1 Electron Spectroscopy -- 18.2 Glow-Discharge Spectroscopies (GDOES and GDMS) -- 18.3 Secondary Ion Mass Spectrometry (SIMS) -- 18.4 Conclusion -- 19 Thermal Properties and Thermal Analysis: Fundamentals, Experimental Techniques and Applications -- 19.1 Heat Capacity -- 19.2 Thermal Conductivity -- 19.3 Thermal Expansion -- 19.4 Enthalpic Thermal Properties -- 19.5 Temperature-Modulated DSC (TMDSC) -- References -- 20 Electrical Characterization of Semiconductor Materials and Devices 34.6 Manufacturing Technology for Photodiode Arrays |
| Title | Springer Handbook of Electronic and Photonic Materials (2nd Edition) |
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