Verfügbarkeit: Principles of inorganic materials design

Principles of inorganic materials design:

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Hauptverfasser:	Lalena, John N. (VerfasserIn), Cleary, David A. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Hoboken, N.J. Wiley 2010
Ausgabe:	2. ed.
Schlagworte:	Anorganischer Werkstoff Anorganische Chemie Werkstoffkunde Technische anorganische Chemie Festkörperchemie
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXVI, 585 S. Ill., graph. Darst.
ISBN:	9780470404034

Internformat

MARC


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Datensatz im Suchindex

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adam_text	Titel: Principles of inorganic materials design Autor: Lalena, John N. Jahr: 2010 CONTENTS FOREWORD TO SECOND EDITION xiii FOREWORD TO FIRST EDITION xv PREFACE TO SECOND EDITION xix PREFACE TO FIRST EDITION xxi ACRONYMS xxiii 1 CRYSTALLOGRAPHIC CONSIDERATIONS 1 1.1 Degrees of Crystallinity 1.1.1 Monocrystalline Solids 1.1.2 Quasicrystalline Solids 2 2 3 1.1.3 Polycrystalline Solids 1.1.4 Semicrystalline Solids 5 5 1.1.5 Amorphous Solids 1.2 Basic Crystallography 1.2.1 Space Lattice Geometry 1.3 Single Crystal Morphology and its Relationship to Lattice Symmetry 1.4 Twinned Crystals 8 9 9 31 36 1.5 Crystallographic Orientation Relationships in Bicrystals 38 1.5.1 The Coincidence Site Lattice 38 1.5.2 Equivalent Axis-Angle Pairs 43 1.6 Amorphous Solids and Glasses 45 Practice Problems 50 References 52 Vi CONTENTS 2 MICROSTRUCTURAL CONSIDERATIONS 55 2.1 Materials Length Scales 56 2.1.1 Experimental Resolution of Material Features 59 2.2 Grain Boundaries in Polycrystalline Materials 61 2.2.1 Grain-Boundary Orientations 61 2.2.2 Dislocation Model of Low Angle Grain Boundaries 63 2.2.3 Grain-Boundary Energy 65 2.2.4 Special Types of Low-Energy Grain Boundaries 66 2.2.5 Grain-Boundary Dynamics 67 2.2.6 Representing Orientation Distributions in Polycrystalline Aggregates 67 2.3 Materials Processing and Microstructure 70 2.3.1 Conventional Solidification 70 2.3.2 Deformation Processing 78 2.3.3 Consolidation Processing 78 2.3.4 Thin-Film Formation 79 2.4 Microstructure and Materials Properties 82 2.4.1 Mechanical Properties 83 2.4.2 Transport Properties 84 2.4.3 Magnetic and Dielectric Properties 88 2.4.4 Chemical Properties 90 2.5 Microstructure Control and Design 90 Practice Problems 93 References 94 3 CRYSTAL STRUCTURES AND BINDING FORCES 97 3.1 Structure Description Methods 97 3.1.1 Close Packing 98 3.1.2 Polyhedra 101 3.1.3 The Unit Cell 103 3.1.4 Pearson Symbols 103 3.2 Cohesive Forces in Solids 103 3.2.1 Ionic Bonding 103 3.2.2 Covalent Bonding 106 3.2.3 Metallic Bonding 109 3.2.4 Atoms and Bonds as Electron Charge Density 110 CONTENTS VH 3.3 Structural Energetics 111 3.3.1 Lattice Energy 112 3.3.2 The Born-Haber Cycle 117 3.3.3 Goldschmidt s Rules and Pauling s Rules 118 3.3.4 Total Energy 120 3.3.5 Electronic Origin of Coordination Polyhedra in Covalent Crystals 122 3.4 Common Structure Types 127 3.4.1 Iono-Covalent Solids 127 3.4.2 Intermetallic Compounds 144 3.5 Structural Disturbances 153 3.5.1 Intrinsic Point Defects 154 3.5.2 Extrinsic Point Defects 156 3.5.3 Structural Distortions 157 3.5.4 Bond Valence Sum Calculations 160 3.6 Structure Control and Synthetic Strategies 163 Prac Refe tice Problems rences 167 169 4 THE ELECTRONIC LEVEL I: AN OVERVIEW OF BAND THEORY 175 4.1 The Many-Body Schrodinger Equation 176 4.2 Bloch s Theorem 179 4.3 Reciprocal Space 184 4.4 A Choice of Basis Sets 187 4.4.1 Plane-Wave Expansion - The Free-Electron Models 188 4.4.2 The Fermi Surface and Phase Stability 189 4.4.3 Bloch Sum Basis Set - The LCAO Method 192 4.5 Understanding Band-Structure Diagrams 193 4.6 Breakdown of the Independent Electron Approximation 197 4.7 Density Functional Theory - The Successor to the Hartree-Fock Approach 198 Practice Problems 199 References 201 5 THE ELECTRONIC LEVEL II: THE TIGHT-BINDING ELECTRONIC STRUCTURE APPROXIMATION 203 5.1 The General LCAO Method 204 5.2 Extension of the LCAO Treatment to Crystalline Solids 210 viii CONTENTS 5.3 Orbital Interactions in Monatomic Solids 213 5.3.1 r-Bonding Interactions 213 5.3.2 ir-Bonding Interactions 217 5.4 Tight-Binding Assumptions 221 5.5 Qualitative LCAO Band Structures 223 5.5.1 Illustration 1: Transition Metal Oxides with Vertex-Sharing Octahedra 228 5.5.2 Illustration 2: Reduced Dimensional Systems 231 5.5.3 Illustration 3: Transition Metal Monoxides with Edge-Sharing Octahedra 233 5.5.4 Corollary 237 5.6 Total Energy Tight-Binding Calculations 238 Practice Problems 239 References 240 6 TRANSPORT PROPERTIES 241 6.1 An Introduction to Tensors 241 6.2 Thermal Conductivity 248 6.2.1 The Free Electron Contribution 249 6.2.2 The Phonon Contribution 251 6.3 Electrical Conductivity 254 6.3.1 Band Structure Considerations 258 6.3.2 Thermoelectric, Photovoltaic, and Magnetotransport Properties 263 6.4 Mass Transport 272 6.4.1 Atomic Diffusion 273 6.4.2 Ionic Conduction 280 Practice Problems 281 References 282 7 METAL-NONMETAL TRANSITIONS 285 7.1 Correlated Systems 287 7.1.1 The Mott-Hubbard Insulating State 289 7.1.2 Charge-Transfer Insulators 293 7.1.3 Marginal Metals 293 7.2 Anderson Localization 295 7.3 Experimentally Distinguishing Disorder from Electron Correlation 299 CONTENTS IX 7.4 Tuning the M-NM Transition 302 7.5 Other Types of Electronic Transitions 305 Practice Problems 307 References 308 8 MAGNETIC AND DIELECTRIC PROPERTIES 311 8.1 Phenomenological Description of Magnetic Behavior 313 8.1.1 Magnetization Curves 316 8.1.2 Susceptibility Curves 317 8.2 Atomic States and Term Symbols of Free Ions 319 8.3 Atomic Origin of Paramagnetism 325 8.3.1 Orbital Angular Momentum Contribution - The Free Ion Case 326 8.3.2 Spin Angular Momentum Contribution - The Free Ion Case 327 8.3.3 Total Magnetic Moment - The Free Ion Case 328 8.3.4 Spin-Orbit Coupling - The Free Ion Case 329 8.3.5 Single Ions in Crystals 330 8.3.6 Solids 336 8.4 Diamagnetism 339 8.5 Spontaneous Magnetic Ordering 339 8.5.1 Exchange Interactions 341 8.5.2 Itinerant Ferromagnetism 350 8.5.3 Noncolinear Spin Configurations and Magnetocrystalline Anisotropy 353 8.6 Magnetotransport Properties 359 8.6.1 The Double Exchange Mechanism 361 8.6.2 The Half-Metallic Ferromagnet Model 361 8.7 Magnetostriction 363 8.8 Dielectric Properties 364 8.8.1 The Microscopic Equations 365 8.8.2 Piezoelectricity 367 8.8.3 Pyroelectricity 370 8.8.4 Ferroelectricity 371 Practice Problems 372 References 373 CONTENTS 9 OPTICAL PROPERTIES OF MATERIALS 377 9.1 Maxwell s Equations 377 9.2 Refractive Index 381 9.3 Absorption 390 9.4 Nonlinear Effects 395 9.5 Summary 400 Practice Problems , 400 References 401 10 MECHANICAL PROPERTIES 403 10.1 Stress and Strain 404 10.2 Elasticity 407 10.2.1 The Elasticity Tensor 408 10.2.2 Elastically Isotropic Solids 413 10.2.3 The Relation Between Elasticity and the Cohesive Forces in a Solid 421 10.2.4 Superelasticity, Pseudoelasticity, and the Shape Memory Effect 430 10.3 Plasticity 433 10.3.1 The Dislocation-Based Mechanism to Plastic Deformation 439 10.3.2 Polycrystalline Metals 447 10.3.3 Brittle and Semibrittle Solids 448 10.3.4 The Correlation Between the Electronic Structure and the Plasticity of Materials 450 10.4 Fracture 451 Practice Problems 454 References 456 11 PHASE EQUILIBRIA, PHASE DIAGRAMS, AND PHASE MODELING 461 11.1 Thermodynamic Systems and Equilibrium 462 11.1.1 Equilibrium Thermodynamics 465 11.2 Thermodynamic Potentials and the Laws 469 11.3 Understanding Phase Diagrams 472 11.3.1 Unary Systems 472 11.3.2 Binary Metallurgical Systems 472 11.3.3 Binary Nonmetallic Systems 477 CONTENTS 11.3.4 Ternary Condensed Systems 478 11.3.5 Metastable Equilibria 483 11.4 Experimental Phase-Diagram Determinations 484 11.5 Phase-Diagram Modeling 485 11.5.1 Gibbs Energy Expressions for Mixtures and Solid Solutions 485 11.5.2 Gibbs Energy Expressions for Phases with Long-Range Order 488 11.5.3 Other Contributions to the Gibbs Energy 493 11.5.4 Phase Diagram Extrapolations - the CALPHAD Method 494 Practice Problems 498 References 499 12 SYNTHETIC STRATEGIES 501 502 503 504 512 514 514 517 519 521 526 526 528 VLS 531 532 534 535 536 537 538 538 539 12.1 Synthetic Strategies 12.1.1 Direct Combination 12.1.2 Low Temperature 12.1.3 Defects 12.1.4 Combinatorial Synthesis 12.1.5 Spinodal Decomposition 12.1.6 Thin Films 12.1.7 Photonic Materials 12.1.8 Nanosynthesis 12.2 Summary Practice Problems References ANI NTRODUOION TO NANOMATI 13.1 History of Nanotechnology 13.2 Nanomaterials Properties 13.2.1 Electrical Properties 13.2.2 Magnetic Properties 13.2.3 Optical Properties 13.2.4 Thermal Properties 13.2.5 Mechanical Properties 13.2.6 Chemical Reactivity XII CONTENTS 13.3 More on Nanomaterials Preparative Techniques 541 13.3.1 Top-Down Methods for the Fabrication of Nanocrystalline Materials 542 13.3.2 Bottom-Up Methods for the Synthesis of Nanostructured Solids 544 References 556 APPENDIX 1 559 APPENDIX 2 565 APPENDIX 3 569 INDEX 575
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spellingShingle	Lalena, John N. Cleary, David A. Principles of inorganic materials design Anorganischer Werkstoff (DE-588)4142570-4 gnd Anorganische Chemie (DE-588)4002145-2 gnd Werkstoffkunde (DE-588)4079184-1 gnd Technische anorganische Chemie (DE-588)4300470-2 gnd Festkörperchemie (DE-588)4129288-1 gnd
subject_GND	(DE-588)4142570-4 (DE-588)4002145-2 (DE-588)4079184-1 (DE-588)4300470-2 (DE-588)4129288-1
title	Principles of inorganic materials design
title_auth	Principles of inorganic materials design
title_exact_search	Principles of inorganic materials design
title_full	Principles of inorganic materials design John N. Lalena ; David A. Cleary
title_fullStr	Principles of inorganic materials design John N. Lalena ; David A. Cleary
title_full_unstemmed	Principles of inorganic materials design John N. Lalena ; David A. Cleary
title_short	Principles of inorganic materials design
title_sort	principles of inorganic materials design
topic	Anorganischer Werkstoff (DE-588)4142570-4 gnd Anorganische Chemie (DE-588)4002145-2 gnd Werkstoffkunde (DE-588)4079184-1 gnd Technische anorganische Chemie (DE-588)4300470-2 gnd Festkörperchemie (DE-588)4129288-1 gnd
topic_facet	Anorganischer Werkstoff Anorganische Chemie Werkstoffkunde Technische anorganische Chemie Festkörperchemie
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=020207821&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT lalenajohnn principlesofinorganicmaterialsdesign AT clearydavida principlesofinorganicmaterialsdesign

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