Electron Distributions and the Chemical Bond [electronic resource] / edited by Philip Coppens, Michael B. Hall
- Author
- Coppens, Philip
- Published
- Boston, MA : Springer US, 1982.
- Physical Description
- 479p : online resource
- Additional Creators
- Hall, Michael B. and SpringerLink (Online service)
Access Online
- Contents
- Section 1 Introduction -- Concepts of Charge Density Analysis: The Theoretical Approach -- Concepts of Charge Density Analysis: The Experimental Approach -- Section 2 Theoretical Considerations -- Density Functional Theory -- Quantum Model of the Coherent Diffraction Experiment: Recent Generalizations and Applications -- The Influence of Relativity on Molecular Properties: A Review of the Relativistic Hartree-Fock-Slater Method -- Section 3 Extended Solids: Theoretical and Experimental Results -- Theoretical Determination of Electronic Charge Densities in Covalently Bonded Semiconductors -- Fermi Gas Approach to X-Ray Scattering by Metallic Solids -- Theoretical and Experimental Charge Distributions in Euclase and Stishovite -- Electron Deformation Density in Calcium Beryllide -- Section 4 Molecular Solids: Theoretical Results -- Computation and Interpretation of Electron Distributions in Inorganic Molecules -- Electron Deformation Density Distributions in Binuclear Complexes of Transition Metals: Computation and Interpretation from ab initio Molecular Orbital Wavefunctions -- Experimental Versus Theoretical Electron Densities: Methods and Errors -- Section 5 Molecular Solids: Experimental Results -- Experimental Observation of Tellurium Lone-Pair and Molybdenum-Molybdenum Triple and Quadruple Bond Densities -- Deformation Density Determinations (X-X, X-N) of Organometallic Compounds -- Analysis of Electronic Structure from Electron Density Distributions of Transition Metal Complexes -- Neutron Scattering by Paramagnets: Wave Functions of Antibonding States in Transition Metal Complexes -- Electron Density Distribution in the Bonds of Cumulenes and Small Ring Compounds -- Section 6 Electrostatic Properties -- Pseudomolecular Electrostatic Properties from X-Ray Diffraction Data -- Refinement of Charge Density Models Using Constraints for Electric Field Gradients at Nuclear Positions -- The Study of Molecular Electron Distribution by X-Ray Photoelectron Spectroscopy -- Electron Density Functions in Organic Chemistry.
- Subject(s)
- ISBN
- 9781461334675
- Digital File Characteristics
- text file PDF
- Note
- AVAILABLE ONLINE TO AUTHORIZED PSU USERS.
- Part Of
- Springer eBooks
View MARC record | catkey: 11944200