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Electronic materials science [[electronic resource] /] / Eugene A. Irene
| Electronic materials science [[electronic resource] /] / Eugene A. Irene |
| Autore | Irene Eugene A |
| Pubbl/distr/stampa | Hoboken, N.J., : Wiley-Interscience, c2005 |
| Descrizione fisica | 1 online resource (322 p.) |
| Disciplina | 621.381 |
| Soggetto topico |
Electronics - Materials
Electronic apparatus and appliances - Materials |
| ISBN |
1-280-25481-5
9786610254811 0-470-32412-0 0-471-71164-0 0-471-71163-2 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
ELECTRONIC MATERIALS SCIENCE; CONTENTS; Preface; 1 Introduction to Electronic Materials Science; 1.1 Introduction; 1.2 Structure and Diffraction; 1.3 Defects; 1.4 Diffusion; 1.5 Phase Equilibria; 1.6 Mechanical Properties; 1.7 Electronic Structure; 1.8 Electronic Properties and Devices; 1.9 Electronic Materials Science; 2 Structure of Solids; 2.1 Introduction; 2.2 Order; 2.3 The Lattice; 2.4 Crystal Structure; 2.5 Notation; 2.5.1 Naming Planes; 2.5.2 Lattice Directions; 2.6 Lattice Geometry; 2.6.1 Planar Spacing Formulas; 2.6.2 Close Packing; 2.7 The Wigner-Seitz Cell; 2.8 Crystal Structures
2.8.1 Structures for Elements2.8.2 Structures for Compounds; 2.8.3 Solid Solutions; Related Reading; Exercises; 3 Diffraction; 3.1 Introduction; 3.2 Phase Difference and Bragg's Law; 3.3 The Scattering Problem; 3.3.1 Coherent Scattering from an Electron; 3.3.2 Coherent Scattering from an Atom; 3.3.3 Coherent Scattering from a Unit Cell; 3.3.4 Structure Factor Calculations; 3.4 Reciprocal Space, RESP; 3.4.1 Why Reciprocal Space?; 3.4.2 Definition of RESP; 3.4.3 Definition of Reciprocal Lattice Vector; 3.4.4 The Ewald Construction; 3.5 Diffraction Techniques; 3.5.1 Rotating Crystal Method 3.5.2 Powder Method3.5.3 Laue Method; 3.6 Wave Vector Representation; Related Reading; Exercises; 4 Defects in Solids; 4.1 Introduction; 4.2 Why Do Defects Form?; 4.2.1 Review of Some Thermodynamics Ideas; 4.3 Point Defects; 4.4 The Statistics of Point Defects; 4.5 Line Defects-Dislocations; 4.5.1 Edge Dislocations; 4.5.2 Screw Dislocations; 4.5.3 Burger's Vector and the Burger Circuit; 4.5.4 Dislocation Motion; 4.6 Planar Defects; 4.6.1 Grain Boundaries; 4.6.2 Twin Boundaries; 4.7 Three-Dimensional Defects; Related Reading; Exercises; 5 Diffusion in Solids 5.1 Introduction to Diffusion Equations5.2 Atomistic Theory of Diffusion: Fick's Laws and a Theory for the Diffussion Construct D; 5.3 Random Walk Problem; 5.3.1 Random Walk Calculations; 5.3.2 Relation of D to Random Walk; 5.3.3 Self-Diffusion Vacancy Mechanism in a FCC Crystal; 5.3.4 Activation Energy for Diffusion; 5.4 Other Mass Transport Mechanisms; 5.4.1 Permeability versus Diffusion; 5.4.2 Convection versus Diffusion; 5.5 Mathematics of Diffusion; 5.5.1 Steady State Diffusion-Fick's First Law; 5.5.2 Non-Steady State Diffusion-Fick's Second Law; Related Reading; Exercises 6 Phase Equilibria6.1 Introduction; 6.2 The Gibbs Phase Rule; 6.2.1 Definitions; 6.2.2 Equilibrium Among Phases-The Phase Rule; 6.2.3 Applications of the Phase Rule; 6.2.4 Construction of Phase Diagrams: Theory and Experiment; 6.2.5 The Tie Line Principle; 6.2.6 The Lever Rule; 6.2.7 Examples of Phase Equilibria; 6.3 Nucleation and Growth of Phases; 6.3.1 Thermodynamics of Phase Transformations; 6.3.2 Nucleation; Related Reading; Exercises; 7 Mechanical Properties of Solids-Elasticity; 7.1 Introduction; 7.2 Elasticity Relationships; 7.2.1 True versus Engineering Strain 7.2.2 Nature of Elasticity and Young's Modulus |
| Record Nr. | UNINA-9910143560503321 |
Irene Eugene A
|
||
| Hoboken, N.J., : Wiley-Interscience, c2005 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Electronic materials science / / Eugene A. Irene
| Electronic materials science / / Eugene A. Irene |
| Autore | Irene Eugene A |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | Hoboken, N.J., : Wiley-Interscience, c2005 |
| Descrizione fisica | 1 online resource (322 p.) |
| Disciplina | 621.381 |
| Soggetto topico |
Electronics - Materials
Electronic apparatus and appliances - Materials |
| ISBN |
1-280-25481-5
9786610254811 0-470-32412-0 0-471-71164-0 0-471-71163-2 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
ELECTRONIC MATERIALS SCIENCE; CONTENTS; Preface; 1 Introduction to Electronic Materials Science; 1.1 Introduction; 1.2 Structure and Diffraction; 1.3 Defects; 1.4 Diffusion; 1.5 Phase Equilibria; 1.6 Mechanical Properties; 1.7 Electronic Structure; 1.8 Electronic Properties and Devices; 1.9 Electronic Materials Science; 2 Structure of Solids; 2.1 Introduction; 2.2 Order; 2.3 The Lattice; 2.4 Crystal Structure; 2.5 Notation; 2.5.1 Naming Planes; 2.5.2 Lattice Directions; 2.6 Lattice Geometry; 2.6.1 Planar Spacing Formulas; 2.6.2 Close Packing; 2.7 The Wigner-Seitz Cell; 2.8 Crystal Structures
2.8.1 Structures for Elements2.8.2 Structures for Compounds; 2.8.3 Solid Solutions; Related Reading; Exercises; 3 Diffraction; 3.1 Introduction; 3.2 Phase Difference and Bragg's Law; 3.3 The Scattering Problem; 3.3.1 Coherent Scattering from an Electron; 3.3.2 Coherent Scattering from an Atom; 3.3.3 Coherent Scattering from a Unit Cell; 3.3.4 Structure Factor Calculations; 3.4 Reciprocal Space, RESP; 3.4.1 Why Reciprocal Space?; 3.4.2 Definition of RESP; 3.4.3 Definition of Reciprocal Lattice Vector; 3.4.4 The Ewald Construction; 3.5 Diffraction Techniques; 3.5.1 Rotating Crystal Method 3.5.2 Powder Method3.5.3 Laue Method; 3.6 Wave Vector Representation; Related Reading; Exercises; 4 Defects in Solids; 4.1 Introduction; 4.2 Why Do Defects Form?; 4.2.1 Review of Some Thermodynamics Ideas; 4.3 Point Defects; 4.4 The Statistics of Point Defects; 4.5 Line Defects-Dislocations; 4.5.1 Edge Dislocations; 4.5.2 Screw Dislocations; 4.5.3 Burger's Vector and the Burger Circuit; 4.5.4 Dislocation Motion; 4.6 Planar Defects; 4.6.1 Grain Boundaries; 4.6.2 Twin Boundaries; 4.7 Three-Dimensional Defects; Related Reading; Exercises; 5 Diffusion in Solids 5.1 Introduction to Diffusion Equations5.2 Atomistic Theory of Diffusion: Fick's Laws and a Theory for the Diffussion Construct D; 5.3 Random Walk Problem; 5.3.1 Random Walk Calculations; 5.3.2 Relation of D to Random Walk; 5.3.3 Self-Diffusion Vacancy Mechanism in a FCC Crystal; 5.3.4 Activation Energy for Diffusion; 5.4 Other Mass Transport Mechanisms; 5.4.1 Permeability versus Diffusion; 5.4.2 Convection versus Diffusion; 5.5 Mathematics of Diffusion; 5.5.1 Steady State Diffusion-Fick's First Law; 5.5.2 Non-Steady State Diffusion-Fick's Second Law; Related Reading; Exercises 6 Phase Equilibria6.1 Introduction; 6.2 The Gibbs Phase Rule; 6.2.1 Definitions; 6.2.2 Equilibrium Among Phases-The Phase Rule; 6.2.3 Applications of the Phase Rule; 6.2.4 Construction of Phase Diagrams: Theory and Experiment; 6.2.5 The Tie Line Principle; 6.2.6 The Lever Rule; 6.2.7 Examples of Phase Equilibria; 6.3 Nucleation and Growth of Phases; 6.3.1 Thermodynamics of Phase Transformations; 6.3.2 Nucleation; Related Reading; Exercises; 7 Mechanical Properties of Solids-Elasticity; 7.1 Introduction; 7.2 Elasticity Relationships; 7.2.1 True versus Engineering Strain 7.2.2 Nature of Elasticity and Young's Modulus |
| Record Nr. | UNINA-9910825316303321 |
|
Irene Eugene A
|
||
| Hoboken, N.J., : Wiley-Interscience, c2005 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||