Orbital interactions in chemistry

Explains the underlying structure that unites all disciplinesin chemistry Now in its second edition, this book explores organic,organometallic, inorganic, solid state, and materials chemistry,demonstrating how common molecular orbital situations arisethroughout the whole chemical spectrum. The authors explore therelationships that enable readers to grasp the theory thatunderlies and connects traditional fields of study withinchemistry, thereby providing a conceptual framework with which tothink about chemical structure and reactivity problems. Orbital Interactions in Chemistry begins by developingmodels and reviewing molecular orbital theory. Next, the bookexplores orbitals in the organic-main group as well as in solids.Lastly, the book examines orbital interaction patterns that occurin inorganic-organometallic fields as well as clusterchemistry, surface chemistry, and magnetism in solids. This Second Edition has been thoroughly revised andupdated with new discoveries and computational tools since thepublication of the first edition more than twenty-five years ago.Among the new content, readers will find: * Two new chapters dedicated to surface science and magneticproperties * Additional examples of quantum calculations, focusing oninorganic and organometallic chemistry * Expanded treatment of group theory * New results from photoelectron spectroscopy Each section ends with a set of problems, enabling readers totest their grasp of new concepts as they progress through the text.Solutions are available on the book's ftp site. Orbital Interactions in Chemistry is written for bothresearchers and students in organic, inorganic, solid state,materials, and computational chemistry. All readers will discoverthe underlying structure that unites all disciplines inchemistry.

Preface xi About the Authors xiii Chapter 1 Atomic and Molecular Orbitals 1 1.1 Introduction 1 1.2 Atomic Orbitals 1 1.3 Molecular Orbitals 7 Chapter 2 Concepts of Bonding and Orbital Interaction 15 2.1 Orbital Interaction Energy 15 2.2 Molecular Orbital Coefficients 20 2.3 The Two-Orbital Problem-Summary 24 2.4 Electron Density Distribution 26 Chapter 3 Perturbational Molecular Orbital Theory 32 3.1 Introduction 32 3.2 Intermolecular Perturbation 35 3.3 Linear H3, HF, and the Three-Orbital Problem 38 3.4 Degenerate Perturbation 43 Chapter 4 Symmetry 47 4.1 Introduction 47 4.2 Symmetry of Molecules 47 4.3 Representations of Groups 53 4.4 Symmetry Properties of Orbitals 59 4.5 Symmetry-Adapted Wavefunctions 62 4.6 Direct Products 65 4.7 Symmetry Properties, Integrals, and the Noncrossing Rule 67 4.8 Principles of Orbital Construction Using Symmetry Principles 69 4.9 Symmetry Properties of Molecular Vibrations 73 Chapter 5 Molecular Orbital Construction from Fragment Orbitals 78 5.1 Introduction 78 5.2 Triangular H3 78 5.3 Rectangular and Square Planar H4 82 5.4 Tetrahedral H4 84 5.5 Linear H4 86 5.6 Pentagonal H5 and Hexagonal H6 88 5.7 Orbitals of Cyclic Systems 91 Chapter 6 Molecular Orbitals of Diatomic Molecules and Electronegativity Perturbation 97 6.1 Introduction 97 6.2 Orbital Hybridization 98 6.3 Molecular Orbitals of Diatomic Molecules 99 6.4 Electronegativity Perturbation 105 6.5 Photoelectron Spectroscopy and Through-Bond Conjugation 112 Chapter 7 Molecular Orbitals and Geometrical Perturbation 123 7.1 Molecular Orbitals of AH2 123 7.2 Geometrical Perturbation 128 7.3 Walsh Diagrams 131 7.4 Jahn-Teller Distortions 134 7.5 Bond Orbitals and Photoelectron Spectra Of AH2 Molecules 141 Chapter 8 State Wavefunctions and State Energies 151 8.1 Introduction 151 8.2 The Molecular Hamiltonian and State Wavefunctions 152 8.3 Fock Operator 154 8.4 State Energy 156 8.5 Excitation Energy 157 8.6 Ionization Potential and Electron Affinity 160 8.7 Electron Density Distribution and Magnitudes of Coulomb and Exchange Repulsions 160 8.8 Low versus High Spin States 162 8.9 Electron-Electron Repulsion and Charged Species 164 8.10 Configuration Interaction 165 8.11 Toward More Quantitative Treatments 170 8.12 The Density Functional Method 174 Chapter 9 Molecular Orbitals of Small Building Blocks 179 9.1 Introduction 179 9.2 The AH System 179 9.3 Shapes of AH3 Systems 182 9.4 p-Bonding Effects of Ligands 190 9.5 The AH4 System 193 9.6 The AHn Series-Some Generalizations 198 Chapter 10 Molecules with Two Heavy Atoms 204 10.1 Introduction 204 10.2 A2H6 Systems 204 10.3 12-Electron A2H4 Systems 208 10.4 14-Electron AH2BH2 Systems 220 10.5 AH3BH2 Systems 223 10.6 AH3BH Systems 232 Chapter 11 Orbital Interactions through Space and through Bonds 241 11.1 Introduction 241 11.2 In-Plane s orbitals of Small Rings 241 11.3 Through-Bond Interaction 253 11.3.1 The Nature of Through-Bond Coupling 253 11.3.2 Other Through-Bond Coupling Units 256 11.4 Breaking a C--C Bond 258 Chapter 12 Polyenes and Conjugated Systems 272 12.1 Acyclic Polyenes 272 12.2 Huckel Theory 274 12.3 Cyclic Systems 277 12.4 Spin Polarization 285 12.5 Low- versus High-Spin States in Polyenes 289 12.6 Cross-Conjugated Polyenes 291 12.7 Perturbations of Cyclic Systems 294 12.8 Conjugation in Three Dimensions 303 Chapter 13 Solids 313 13.1 Energy Bands 313 13.2 Distortions in One-Dimensional Systems 328 13.3 Other One-Dimensional Systems 334 13.4 Two- and Three-Dimensional Systems 339 13.5 Electron Counting and Structure 350 13.6 High-Spin and Low-Spin Considerations 353 Chapter 14 Hypervalent Molecules 359 14.1 Orbitals of Octahedrally Based Molecules 359 14.2 Solid-State Hypervalent Compounds 373 14.3 Geometries of Hypervalent Molecules 383 Chapter 15 Transition Metal Complexes: A Starting Point at the Octahedron 401 15.1 Introduction 401 15.2 Octahedral ML6 402 15.3 p-Effects in an Octahedron 406 15.4 Distortions from an Octahedral Geometry 416 15.5 The Octahedron in the Solid State 423 Chapter 16 Square Planar, Tetrahedral ML4 Complexes, and Electron Counting 436 16.1 Introduction 436 16.2 The Square Planar ML4 Molecule 436 16.3 Electron Counting 438 16.4 The Square Planar-Tetrahedral ML4 Interconversion 448 16.5 The Solid State 453 Chapter 17 Five Coordination 465 17.1 Introduction 465 17.2 The C4v ML5 Fragment 466 17.3 Five Coordination 468 17.4 Molecules Built Up from ML5 Fragments 480 17.5 Pentacoordinate Nitrosyls 489 17.6 Square Pyramids in The Solid State 492 Chapter 18 The C2v ML3 Fragment 503 18.1 Introduction 503 18.2 The Orbitals of A C2v ML3 Fragment 503 18.3 ML3-Containing Metallacycles 511 18.4 Comparison of C2v ML3 and C4v ML5 Fragments 518 Chapter 19 The ML2 and ML4 Fragments 527 19.1 Development of the C2v ML4 Fragment Orbitals 527 19.2 The Fe(CO)4 Story 529 19.3 Olefin-ML4 Complexes and M2L8 Dimers 533 19.4 The C2v ML2 Fragment 537 19.5 Polyene-ML2 Complexes 539 19.6 Reductive Elimination and Oxidative Addition 552 Chapter 20 Complexes of ML3, MCp and Cp2M 570 20.1 Derivation of Orbitals for a C3v ML3 Fragment 570 20.2 The CpM Fragment Orbitals 582 20.3 Cp2M and Metallocenes 592 20.4 Cp2MLn Complexes 595 Chapter 21 The Isolobal Analogy 616 21.1 Introduction 616 21.2 Generation of Isolobal Fragments 617 21.3 Caveats 621 21.4 Illustrations of the Isolobal Analogy 623 21.5 Reactions 634 21.6 Extensions 639 Chapter 22 Cluster Compounds 653 22.1 Types of Cluster Compounds 653 22.2 Cluster Orbitals 657 22.3 Wade's Rules 660 22.4 Violations 671 22.5 Extensions 677 Chapter 23 Chemistry on the Surface 691 23.1 Introduction 691 23.2 General Structural Considerations 693 23.3 General Considerations of Adsorption on Surfaces 696 23.4 Diatomics on a Surface 699 23.5 The Surface of Semiconductors 721 Chapter 24 Magnetic Properties 735 24.1 Introduction 735 24.2 The Magnetic Insulating State 736 24.3 Properties Associated with the Magnetic Moment 741 24.4 Symmetric Spin Exchange 745 24.5 Magnetic Structure 754 24.6 The Energy Gap in the Magnetic Energy Spectrum 763 24.7 Spin-Orbit Coupling 766 24.8 What Appears versus What Is 778 24.9 Model Hamiltonians Beyond the Level of Spin Exchange 785 24.10 Summary Remarks 785 Problems 786 References 789 Appendix I Perturbational Molecular Orbital Theory 793 Appendix II Some Common Group Tables 803 Appendix III Normal Modes for Some Common Structural Types 808 Index 813