Press: Tsinghua University Press Book Details: ISBN:9787302306856 Pricing: 48 yuan Press:1-kloc-0/Binding: Paperback Printing Date: 20 13- 1-23 Book Description: Content Description This book comprehensively introduces electronic information technology and related industries. This paper expounds the basic theory of electronic materials, and introduces the performance, application and development trend of electronic materials. Chapter *** 13 of this book includes an overview of electronic materials, analysis and characterization of materials, basic technologies such as thin films and thick films, ceramics, superconductivity, conductivity, semiconductors, resistive materials, dielectric materials, magnetic materials, photoelectric materials, sensitive materials and packaging materials. This book can be used as a basic course textbook for microelectronics and solid-state electronics, materials science and engineering, semiconductors, optoelectronics and other majors, and can also be used as a reference for college students, graduate students, teachers and engineers in metallurgy, physics, chemistry, chemical engineering and other related disciplines. The cover of this book is affixed with the anti-counterfeiting label of Tsinghua University Publishing House, and those without the label may not sell it.

Chapter 1 Introduction to electronic materials 1 1 Classification and characteristics of electronic materials11/position of electronic materials in national economy1.2 Electronic. 38+0.3 Environmental Requirements for Electronic Materials 2 1. 1.4 Electronic Materials and Components 4 1.2 Inorganic Electronic Materials 51.2/Crystal Features 5 1.2.2 Isomorphic Crystal and Polymorphic Transformation 9/kloc 438+0.2.4 Intermetallic compound 13 1.3 actual crystal, amorphous and quasicrystal 14 1.3. 1 actual crystal 1 4/. 8 1.4 requirements for electronic materials 29 1.5.2 selection principles for electronic materials 30 1.5.3 nanomaterials 31.5.4 composites and functionally gradient materials 31. 6 Contents of Electronic Materials Chapter II Analysis and Characterization of Electronic Materials 38 2. 1 Chemical Composition Analysis Method of Electronic Materials 38 2.2 Structural Analysis Method of Electronic Materials-X-ray Diffraction Analysis Method 39 2.3 Microscopic Analysis Method of Electronic Materials 4 1 2.4 surface interface analysis technology of electronic materials 44 2.5 scanning probe technology 46 2.6 spectral analysis technology 49 2.7 thermal analysis technology 54 review thinking questions 57 references 57 chapter 3 thin film technology 59 3.65438 vacuum technology 60 3. 1 vacuum 60 3. 1.2 vacuum acquisition 60 3. 1 .3 Measurement of vacuum degree 64 3.2 Principle of vacuum evaporation coating process 64 3.2. 6 5438 +0 Vacuum evaporation 64 3.2.2 Thermal evaporation 65 3.2.3 Pulsed laser evaporation 66 3.2.4 Molecular beam epitaxy 67 3.2.5 Brief introduction of other evaporation coating methods 67 3.3 Sputtering coating process 68 3 Sputtering deposition technology 72 3.4 Chemical vapor deposition technology 73 3.4./ Kloc-0/ chemical vapor deposition process 73 3.4.2 Thermal CVD74 3.4.3 Plasma CVD75 3.4.4 PhotoCVD 753.4. MOCVD) 76 3.4.6 Surface Oxidation Process 77 Review Notes 77 References 78 Chapter 4 Thick Film Process 79 4. 1 Thick Film Slurry 79 4. 1 Thick Film Slurry Characteristics and Preparation 79 4. 1.2 Conductor Slurry 814.1. .4 Dielectric Slurry 84.6. 54548692 Chapter 5 Overview of Ceramic Technology 93 5. 1 93 5.2 Characterization of Powder 94 5.3 Mixing and Crushing of Powder 96 5.4 Chemical Preparation of Powder 99 5.5 Forming Technology102 5.5/Binder102 5.5 103 5.6 sintering principle and types 108 5.6. 1 sintering process 108 5.6.2 related phenomena in sintering 109 5.6.3 sintering process control1095.6. +0 14 Reference 1 14 Chapter VI Conductive Materials and Resistive Materials 1 15 6. 1 Properties and Classification of Conductive Materials1kloc-0/56.2 Metal Conductive Materials/. 6.2. 2 Copper 1655388+022 6.3.3 Brush and Elastic Material 122 6.4 Thick Film Conductive Material 123 6.4. 1 Requirements for Thick Film Conductive Material 124 6.4.2 Precious Metals. 25 6.4.3 base metal thick film conductive material 65438+ 028 6.5 thin film conductive material 130 6. 5. 605438+034 6.6 overview of resistive material 137 6.6. 1 main performance of resistive material137 6. Gold wire 142 6.8 thick film resistor material 143 6.9 thin film resistor material 145 6. 10 precision metal film resistor material 65438+ 049 6. 10 nickel-chromium alloy resistor film149 6. Review of Tantalum-based Resistive Films 152 6. 10.4 Cermet Resistive Films 154 References 155 Chapter VII Superconducting Materials 157 7. 156 Discovery Process of Superconductivity 0000000006 60 7.2. 65548+ conducting materials 173 review questions 176 references 176 chapter 8 semiconductor materials 177 8. 1 general properties of semiconductor materials 1 77 8. 77 8.665436 state 65438438+09 1 8.3 germanium and silicon materials 193 8.3. 1 physical and chemical properties of germanium and silicon 193 8.3.2 crystal structure and energy band structure of germanium and silicon 1. 95 8.3.4 Amorphous silicon material 196 8.3.5 Germanium structure 199 8.4.3 Gallium arsenide 200 8.4.4 GaN material series 200 8.5 II-VI compound 202 8.6 Silicon carbide 203 8.7 Other semiconductor materials 204 Review question 2 10 Reference. General properties of 8+0 dielectric materials 2 1 1 9. 1 polarization and dielectric constant 2 16.5438+0.2 insulation resistance and leakage current 2 14 9. 1.3 dielectric loss and complex dielectric constant 2655. Breakdown of mass 2 16 9.2 piezoelectric, pyroelectric and iron dielectric materials 2 17 9.2. 1 piezoelectric, pyroelectric and ferroelectric materials 2 17 9.2.2 piezoelectric parameters and piezoelectric materials 22 1 9.2.3 Pyroelectric Dielectric Materials and Applications 225 9.2.4 Ferroelectric Ceramic Dielectric Materials and Applications 226 9.3 Device Ceramics 229 9.3. 1 Alumina * Sintered Ceramic Substrate 233 9.4 Capacitor Dielectric Materials 236 9.4. 1 Classification of capacitor dielectric materials 236 9.4.2 High dielectric capacitor ceramics 237 9.4.3 Semiconductor ceramic dielectric and its capacitors 240 9.4.4 Multilayer ceramic capacitor dielectric materials 24 1 9.5 Microwave dielectric materials 244 9.5.6438+0. Application and requirements of ceramics 244 9.5.2 Classification of microwave ceramics 245 9.5.3 Low-temperature * * * burning microwave ceramics 247 9.6 Glass dielectric material 247 9.6. 1 Structure and composition of glass 248 9.6.2 Glass dielectric 25 1 9.6.3 Glass ceramics 252 9.7 Transparent ceramics and Kloc-0/ Transparent Ceramics 254 9.7.2 Far Infrared Lesson 258 References Chapter 259 10 Overview of Magnetic Materials 260 10. 1 26010.1Magnetism of Matter 260/Kloc-0. .2 technical magnetic parameters of magnetic materials 263 65438+ classification and characteristics of magnetic materials 26310.10.4 magnetization +00.2.4 amorphous and nanocrystalline soft magnetic materials 27 1 10.3 permanent magnetic materials 27310. 10.3.5 permanent magnet thin film 28 1 10.4 gyromagnetic material and magnetic recording material 28 1 1.4. 1 gyromagnetic material 281. 438+00.5 magnetic recording material 286 10.5. 1 magnetic recording principle 286 10.5.2 characteristics of magnetic recording 286 10.5.3 magnetic head and magnetic head material 28710.5 .. +00.6. 1 magnetic refrigeration material 290 10.6.2 magneto-optical material 2910.6.3 giant magnetostrictive material 293 10.6.4 magnetoresistance material 295/kloc-0. Chapter 8 +0 Photoelectric Materials and Thermoelectric Materials 300 1 1 luminescent materials 3001.1material luminescence mechanism 3001.2 electroluminescent materials. 1.3 photoluminescence material 3031.2 laser material 309 1.2. 1 laser characteristics and luminescence principle 3091.2 laser crystal 365438 0 1 1 1.2.4 transparent laser ceramics 3 13 1.3 photoelectric conversion materials 3141.3./kloc-0. Material 3 15 1 1.3.3 Thin film photovoltaic cell material 3151.4 photodetector material 3181. Type 3 18 1 1.4.3 photodetector material 321.4 pyroelectric detector material 321.4.5 ultraviolet detector material 3265438 +0 1.5. 1 cathode ray tube display material 3241.5.2 liquid crystal display 3251.5.3 electroluminescent material 3251/kloc-0. , electro-optical material and scintillation material 327 1.6. 1 nonlinear optical material 327 1.6.2 electro-optical material 3311.6.3 scintillation material 333 65438. 38+0.7. 1 thermoelectric effect and thermoelectric figure of merit 336 1 1.7.2 Main thermoelectric materials 337 1 1.7.3 Main methods to improve the performance of thermoelectric materials 339 Review thinking questions 340 Reference 34 1 No.64. Classification of sensitive materials 342 16 12.8 voltage sensitive materials 377 12.9 overview of absorbing materials 380 12. 10 important absorbing materials 383 12. 10. +02. 10.3 dielectric absorbing materials 386 12. 10.4 other absorbing materials 388 review questions 389 references 390 chapter 65438 +03 electronic packaging materials 39 13. 1 introduction to packaging technology 39/ Materials and interconnection materials 394 13.2. 1 frame material 394 13.2.2 lead material 398 13.2.3 solder material 399 13.2.4 conductive adhesive 402/kloc-4. 03.4. 1 metal substrate 407 13.4.2 ceramic substrate 410/3.4.3 organic substrate 4 14 13.5 heat dissipation material 415. ..

Author: Chen Ming

Press: Beijing University of Posts and Telecommunications Press

Publication year: May 2006

Page count: 322

Pricing: 36.00 yuan

Binding: paperback edition

ISBN:97875635 12478

brief Introduction of the content

The book consists of the following eight chapters: Introduction; Fundamentals of dielectric theory; Inorganic dielectric materials; Piezoelectric and ferroelectric materials; Semiconductor materials; Conductive material; Magnetic materials; Other electronic materials. This paper mainly introduces the basic theoretical knowledge, basic performance characteristics and parameters, basic composition, manufacturing principle and application of common materials for electronic components.

This textbook is a teaching book for electronic components and materials majors or microelectronics majors in higher vocational education, and can also be used as a reference for professional and technical personnel engaged in the production and scientific research of electronic components and materials.