Chemical Principles of Nanoengineering
portes grátis
Chemical Principles of Nanoengineering
Tao, Andrea R.
Wiley-VCH Verlag GmbH
11/2023
256
Dura
Inglês
9783527339556
15 a 20 dias
Descrição não disponível.
Introduction 1
What is Nanoengineering? 1
What are Chemical Principles of Nanoengineering? 3
Who is this Book Intended for? 4
1 Intermolecular Forces 7
1.1 The Pairwise Potential 8
1.2 Electrostatic Interactions 11
1.3 Permanent Dipole Interactions and Hydrogen Bonding 18
1.4 van der Waals Forces 23
1.5 Hydrophobic Forces 32
1.6 Steric Forces 36
1.7 Particle Stability and Aggregation 39
Further Reading 42
Problems and Discussion Topics 43
2 Molecular Bonds 49
2.1 Atomic Orbitals 50
2.2 Valence Bond Theory 51
2.3 Molecular Orbital Theory 58
2.4 Frontier Orbitals and Chemical Reactions 71
2.5 Electronic Transitions 73
2.6 Functional Groups and Nomenclature 75
Further Reading 89
Problems and Discussion Topics 89
3 Extended Solids 95
3.1 Energy Bands 95
3.2 Conductivity 99
3.3 Tight-Binding Approximation 104
3.4 Density of States 116
3.5 Conducting Polymers 120
Further Reading 128
Problems and Discussion Topics 128
4 Nanocarbon 133
4.1 Hybridization 133
4.2 Graphene 137
4.3 Carbon Nanotubes 146
4.4 Fullerenes 154
4.5 Diamondoids 157
References 158
Further Reading 159
Problems and Discussion Topics 159
5 Descriptive Crystal Chemistry 163
5.1 Lattices and the Unit Cell 163
5.2 Hard-Sphere Packing 167
5.3 Coordination Geometries 173
5.4 Bravais Lattices 176
5.5 The Atomic Basis 183
5.6 Archetypes 186
5.7 Miller Indices and Crystal Planes 190
Further Reading 194
Problems and Discussion Topics 194
6 Surface Properties and Effects 199
6.1 Estimating the Surface 199
6.2 Adsorption 203
6.3 Surface Energy 208
6.4 Nearest-neighbor Broken-bond Model 212
6.5 Interfacial Energy 218
6.6 Curvature Effects 222
6.7 Stabilizing the Surface 226
Further Reading 232
Problems and Discussion Topics 232
Index 235
What is Nanoengineering? 1
What are Chemical Principles of Nanoengineering? 3
Who is this Book Intended for? 4
1 Intermolecular Forces 7
1.1 The Pairwise Potential 8
1.2 Electrostatic Interactions 11
1.3 Permanent Dipole Interactions and Hydrogen Bonding 18
1.4 van der Waals Forces 23
1.5 Hydrophobic Forces 32
1.6 Steric Forces 36
1.7 Particle Stability and Aggregation 39
Further Reading 42
Problems and Discussion Topics 43
2 Molecular Bonds 49
2.1 Atomic Orbitals 50
2.2 Valence Bond Theory 51
2.3 Molecular Orbital Theory 58
2.4 Frontier Orbitals and Chemical Reactions 71
2.5 Electronic Transitions 73
2.6 Functional Groups and Nomenclature 75
Further Reading 89
Problems and Discussion Topics 89
3 Extended Solids 95
3.1 Energy Bands 95
3.2 Conductivity 99
3.3 Tight-Binding Approximation 104
3.4 Density of States 116
3.5 Conducting Polymers 120
Further Reading 128
Problems and Discussion Topics 128
4 Nanocarbon 133
4.1 Hybridization 133
4.2 Graphene 137
4.3 Carbon Nanotubes 146
4.4 Fullerenes 154
4.5 Diamondoids 157
References 158
Further Reading 159
Problems and Discussion Topics 159
5 Descriptive Crystal Chemistry 163
5.1 Lattices and the Unit Cell 163
5.2 Hard-Sphere Packing 167
5.3 Coordination Geometries 173
5.4 Bravais Lattices 176
5.5 The Atomic Basis 183
5.6 Archetypes 186
5.7 Miller Indices and Crystal Planes 190
Further Reading 194
Problems and Discussion Topics 194
6 Surface Properties and Effects 199
6.1 Estimating the Surface 199
6.2 Adsorption 203
6.3 Surface Energy 208
6.4 Nearest-neighbor Broken-bond Model 212
6.5 Interfacial Energy 218
6.6 Curvature Effects 222
6.7 Stabilizing the Surface 226
Further Reading 232
Problems and Discussion Topics 232
Index 235
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Nanomaterials; alloys; polymers; materials science; inorganic chemistry; bulk solids; quantum dots; carbon nanotubes; graphene; noble metal nanocrystals; atomic bonds; molecular bonds; chemical structure; chemical properties; ceramics
Introduction 1
What is Nanoengineering? 1
What are Chemical Principles of Nanoengineering? 3
Who is this Book Intended for? 4
1 Intermolecular Forces 7
1.1 The Pairwise Potential 8
1.2 Electrostatic Interactions 11
1.3 Permanent Dipole Interactions and Hydrogen Bonding 18
1.4 van der Waals Forces 23
1.5 Hydrophobic Forces 32
1.6 Steric Forces 36
1.7 Particle Stability and Aggregation 39
Further Reading 42
Problems and Discussion Topics 43
2 Molecular Bonds 49
2.1 Atomic Orbitals 50
2.2 Valence Bond Theory 51
2.3 Molecular Orbital Theory 58
2.4 Frontier Orbitals and Chemical Reactions 71
2.5 Electronic Transitions 73
2.6 Functional Groups and Nomenclature 75
Further Reading 89
Problems and Discussion Topics 89
3 Extended Solids 95
3.1 Energy Bands 95
3.2 Conductivity 99
3.3 Tight-Binding Approximation 104
3.4 Density of States 116
3.5 Conducting Polymers 120
Further Reading 128
Problems and Discussion Topics 128
4 Nanocarbon 133
4.1 Hybridization 133
4.2 Graphene 137
4.3 Carbon Nanotubes 146
4.4 Fullerenes 154
4.5 Diamondoids 157
References 158
Further Reading 159
Problems and Discussion Topics 159
5 Descriptive Crystal Chemistry 163
5.1 Lattices and the Unit Cell 163
5.2 Hard-Sphere Packing 167
5.3 Coordination Geometries 173
5.4 Bravais Lattices 176
5.5 The Atomic Basis 183
5.6 Archetypes 186
5.7 Miller Indices and Crystal Planes 190
Further Reading 194
Problems and Discussion Topics 194
6 Surface Properties and Effects 199
6.1 Estimating the Surface 199
6.2 Adsorption 203
6.3 Surface Energy 208
6.4 Nearest-neighbor Broken-bond Model 212
6.5 Interfacial Energy 218
6.6 Curvature Effects 222
6.7 Stabilizing the Surface 226
Further Reading 232
Problems and Discussion Topics 232
Index 235
What is Nanoengineering? 1
What are Chemical Principles of Nanoengineering? 3
Who is this Book Intended for? 4
1 Intermolecular Forces 7
1.1 The Pairwise Potential 8
1.2 Electrostatic Interactions 11
1.3 Permanent Dipole Interactions and Hydrogen Bonding 18
1.4 van der Waals Forces 23
1.5 Hydrophobic Forces 32
1.6 Steric Forces 36
1.7 Particle Stability and Aggregation 39
Further Reading 42
Problems and Discussion Topics 43
2 Molecular Bonds 49
2.1 Atomic Orbitals 50
2.2 Valence Bond Theory 51
2.3 Molecular Orbital Theory 58
2.4 Frontier Orbitals and Chemical Reactions 71
2.5 Electronic Transitions 73
2.6 Functional Groups and Nomenclature 75
Further Reading 89
Problems and Discussion Topics 89
3 Extended Solids 95
3.1 Energy Bands 95
3.2 Conductivity 99
3.3 Tight-Binding Approximation 104
3.4 Density of States 116
3.5 Conducting Polymers 120
Further Reading 128
Problems and Discussion Topics 128
4 Nanocarbon 133
4.1 Hybridization 133
4.2 Graphene 137
4.3 Carbon Nanotubes 146
4.4 Fullerenes 154
4.5 Diamondoids 157
References 158
Further Reading 159
Problems and Discussion Topics 159
5 Descriptive Crystal Chemistry 163
5.1 Lattices and the Unit Cell 163
5.2 Hard-Sphere Packing 167
5.3 Coordination Geometries 173
5.4 Bravais Lattices 176
5.5 The Atomic Basis 183
5.6 Archetypes 186
5.7 Miller Indices and Crystal Planes 190
Further Reading 194
Problems and Discussion Topics 194
6 Surface Properties and Effects 199
6.1 Estimating the Surface 199
6.2 Adsorption 203
6.3 Surface Energy 208
6.4 Nearest-neighbor Broken-bond Model 212
6.5 Interfacial Energy 218
6.6 Curvature Effects 222
6.7 Stabilizing the Surface 226
Further Reading 232
Problems and Discussion Topics 232
Index 235
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
