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Computational chemistry of solid state materials [[electronic resource] ] : a guide for materials scientists, chemists, physicists and others / / Richard Dronskowski
| Computational chemistry of solid state materials [[electronic resource] ] : a guide for materials scientists, chemists, physicists and others / / Richard Dronskowski |
| Autore | Dronskowski Richard |
| Pubbl/distr/stampa | Weinheim [Germany], : Wiley-VCH, c2005 |
| Descrizione fisica | 1 online resource (302 p.) |
| Disciplina | 541.0421 |
| Soggetto topico |
Solid state chemistry
Materials Solid state chemistry - Mathematical models |
| ISBN |
1-281-31171-5
9786611311711 3-527-61227-0 3-527-61229-7 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Computational Chemistry of Solid State Materials; Contents; Foreword Materials: the Bridge Between Chemistry and Physics; Preface; 1 Classical Approaches; 1.1 Ionic Radii and Related Concepts; 1.2 Electrostatics; 1.3 Pauling's Rules; 1.4 Volume Increments; 1.5 The Bond-valence Method; 1.6 Symmetry Principles; 2 Quantum-chemical Approaches; 2.1 Schrödinger's Equation; 2.2 Basis Sets for Molecules; 2.3 Three Myths of Chemical Bonding; 2.4 Bloch's Theorem; 2.5 Reciprocal Space and the k Quantum Number; 2.6 Band Structures; 2.6.1 One-dimensional Systems; 2.6.2 Structural Distortions
2.6.3 Higher Dimensions2.7 Density-of-states and Basic Electron Partitioning; 2.8 Energy-resolved Electron and Energy Partitioning; 2.9 Exchange and Correlation; 2.10 Electron Localization; 2.11 How to Deal with Exchange and Correlation; 2.11.1 Ignoring it or Pretending to do so; 2.11.2 The Hartree Approximation; 2.11.3 The Hartree-Fock Approximation; 2.12 Density-functional Theory; 2.12.1 Exchange-Correlation Functionals; 2.13 Beyond Density-functional Theory; 2.14 Absolute Electronegativity and Hardness; 2.15 Potentials and Basis Sets in Solids 2.15.1 Empirical Tight-binding and Nonempirical Relatives2.15.2 Pseudopotentials; 2.15.3 Cellular (Augmentation) Methods; 2.15.4 Linear Methods; 2.15.5 Modern Developments; 2.16 Structure Optimization; 2.17 Molecular Dynamics; 2.18 Practical Aspects; 2.18.1 Structural Models; 2.18.2 Energy, Enthalpy, Entropy and Gibbs Energy; 2.19 Computer Implementations; 3 The Theoretical Machinery at Work; 3.1 Structure and Energetics: Calcium Oxide; 3.2 Structural Alternatives: Transition-metal Nitrides; 3.3 Structure and Physical Properties: Cerium Pnictides 3.4 Structures by Peierls Distortions: Tellurium3.5 Itinerant Magnetism: The Transition Metals; 3.6 Itinerant Magnetism: Transition-metal Compounds; 3.7 Atomic Dynamics in Fe:AlN Nanocomposites; 3.8 Structural versus Electronic Distortions: MnAl; 3.9 Challenging Theory: Mercury Carbodiimide and Cyanamide; 3.10 Quasi-binary Oxynitrides: TaON and CoO(1-x)N(x); 3.11 Into the Void: The Sn/Zn System; 3.12 Predicting Oxynitrides: High-pressure Phases and VON; 3.13 Predicting Magnetic Cyanamides and Carbodiimides; 3.14 Predicting Ternary Magnetic Nitrides; 4 Epilogue; Bibliography; Index Acknowledgments |
| Record Nr. | UNINA-9910144300603321 |
Dronskowski Richard
|
||
| Weinheim [Germany], : Wiley-VCH, c2005 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Computational chemistry of solid state materials [[electronic resource] ] : a guide for materials scientists, chemists, physicists and others / / Richard Dronskowski
| Computational chemistry of solid state materials [[electronic resource] ] : a guide for materials scientists, chemists, physicists and others / / Richard Dronskowski |
| Autore | Dronskowski Richard |
| Pubbl/distr/stampa | Weinheim [Germany], : Wiley-VCH, c2005 |
| Descrizione fisica | 1 online resource (302 p.) |
| Disciplina | 541.0421 |
| Soggetto topico |
Solid state chemistry
Materials Solid state chemistry - Mathematical models |
| ISBN |
1-281-31171-5
9786611311711 3-527-61227-0 3-527-61229-7 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Computational Chemistry of Solid State Materials; Contents; Foreword Materials: the Bridge Between Chemistry and Physics; Preface; 1 Classical Approaches; 1.1 Ionic Radii and Related Concepts; 1.2 Electrostatics; 1.3 Pauling's Rules; 1.4 Volume Increments; 1.5 The Bond-valence Method; 1.6 Symmetry Principles; 2 Quantum-chemical Approaches; 2.1 Schrödinger's Equation; 2.2 Basis Sets for Molecules; 2.3 Three Myths of Chemical Bonding; 2.4 Bloch's Theorem; 2.5 Reciprocal Space and the k Quantum Number; 2.6 Band Structures; 2.6.1 One-dimensional Systems; 2.6.2 Structural Distortions
2.6.3 Higher Dimensions2.7 Density-of-states and Basic Electron Partitioning; 2.8 Energy-resolved Electron and Energy Partitioning; 2.9 Exchange and Correlation; 2.10 Electron Localization; 2.11 How to Deal with Exchange and Correlation; 2.11.1 Ignoring it or Pretending to do so; 2.11.2 The Hartree Approximation; 2.11.3 The Hartree-Fock Approximation; 2.12 Density-functional Theory; 2.12.1 Exchange-Correlation Functionals; 2.13 Beyond Density-functional Theory; 2.14 Absolute Electronegativity and Hardness; 2.15 Potentials and Basis Sets in Solids 2.15.1 Empirical Tight-binding and Nonempirical Relatives2.15.2 Pseudopotentials; 2.15.3 Cellular (Augmentation) Methods; 2.15.4 Linear Methods; 2.15.5 Modern Developments; 2.16 Structure Optimization; 2.17 Molecular Dynamics; 2.18 Practical Aspects; 2.18.1 Structural Models; 2.18.2 Energy, Enthalpy, Entropy and Gibbs Energy; 2.19 Computer Implementations; 3 The Theoretical Machinery at Work; 3.1 Structure and Energetics: Calcium Oxide; 3.2 Structural Alternatives: Transition-metal Nitrides; 3.3 Structure and Physical Properties: Cerium Pnictides 3.4 Structures by Peierls Distortions: Tellurium3.5 Itinerant Magnetism: The Transition Metals; 3.6 Itinerant Magnetism: Transition-metal Compounds; 3.7 Atomic Dynamics in Fe:AlN Nanocomposites; 3.8 Structural versus Electronic Distortions: MnAl; 3.9 Challenging Theory: Mercury Carbodiimide and Cyanamide; 3.10 Quasi-binary Oxynitrides: TaON and CoO(1-x)N(x); 3.11 Into the Void: The Sn/Zn System; 3.12 Predicting Oxynitrides: High-pressure Phases and VON; 3.13 Predicting Magnetic Cyanamides and Carbodiimides; 3.14 Predicting Ternary Magnetic Nitrides; 4 Epilogue; Bibliography; Index Acknowledgments |
| Record Nr. | UNINA-9910830173703321 |
|
Dronskowski Richard
|
||
| Weinheim [Germany], : Wiley-VCH, c2005 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Computational chemistry of solid state materials : a guide for materials scientists, chemists, physicists and others / / Richard Dronskowski
| Computational chemistry of solid state materials : a guide for materials scientists, chemists, physicists and others / / Richard Dronskowski |
| Autore | Dronskowski Richard |
| Pubbl/distr/stampa | Weinheim [Germany], : Wiley-VCH, c2005 |
| Descrizione fisica | 1 online resource (302 p.) |
| Disciplina | 541.0421 |
| Soggetto topico |
Solid state chemistry
Materials Solid state chemistry - Mathematical models |
| ISBN |
1-281-31171-5
9786611311711 3-527-61227-0 3-527-61229-7 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Computational Chemistry of Solid State Materials; Contents; Foreword Materials: the Bridge Between Chemistry and Physics; Preface; 1 Classical Approaches; 1.1 Ionic Radii and Related Concepts; 1.2 Electrostatics; 1.3 Pauling's Rules; 1.4 Volume Increments; 1.5 The Bond-valence Method; 1.6 Symmetry Principles; 2 Quantum-chemical Approaches; 2.1 Schrödinger's Equation; 2.2 Basis Sets for Molecules; 2.3 Three Myths of Chemical Bonding; 2.4 Bloch's Theorem; 2.5 Reciprocal Space and the k Quantum Number; 2.6 Band Structures; 2.6.1 One-dimensional Systems; 2.6.2 Structural Distortions
2.6.3 Higher Dimensions2.7 Density-of-states and Basic Electron Partitioning; 2.8 Energy-resolved Electron and Energy Partitioning; 2.9 Exchange and Correlation; 2.10 Electron Localization; 2.11 How to Deal with Exchange and Correlation; 2.11.1 Ignoring it or Pretending to do so; 2.11.2 The Hartree Approximation; 2.11.3 The Hartree-Fock Approximation; 2.12 Density-functional Theory; 2.12.1 Exchange-Correlation Functionals; 2.13 Beyond Density-functional Theory; 2.14 Absolute Electronegativity and Hardness; 2.15 Potentials and Basis Sets in Solids 2.15.1 Empirical Tight-binding and Nonempirical Relatives2.15.2 Pseudopotentials; 2.15.3 Cellular (Augmentation) Methods; 2.15.4 Linear Methods; 2.15.5 Modern Developments; 2.16 Structure Optimization; 2.17 Molecular Dynamics; 2.18 Practical Aspects; 2.18.1 Structural Models; 2.18.2 Energy, Enthalpy, Entropy and Gibbs Energy; 2.19 Computer Implementations; 3 The Theoretical Machinery at Work; 3.1 Structure and Energetics: Calcium Oxide; 3.2 Structural Alternatives: Transition-metal Nitrides; 3.3 Structure and Physical Properties: Cerium Pnictides 3.4 Structures by Peierls Distortions: Tellurium3.5 Itinerant Magnetism: The Transition Metals; 3.6 Itinerant Magnetism: Transition-metal Compounds; 3.7 Atomic Dynamics in Fe:AlN Nanocomposites; 3.8 Structural versus Electronic Distortions: MnAl; 3.9 Challenging Theory: Mercury Carbodiimide and Cyanamide; 3.10 Quasi-binary Oxynitrides: TaON and CoO(1-x)N(x); 3.11 Into the Void: The Sn/Zn System; 3.12 Predicting Oxynitrides: High-pressure Phases and VON; 3.13 Predicting Magnetic Cyanamides and Carbodiimides; 3.14 Predicting Ternary Magnetic Nitrides; 4 Epilogue; Bibliography; Index Acknowledgments |
| Record Nr. | UNINA-9910876758603321 |
|
Dronskowski Richard
|
||
| Weinheim [Germany], : Wiley-VCH, c2005 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
