Modern Charge-Density Analysis

Abstract

A guided tour through modern charge density analysis.- Electron densities and related properties from the ab-initio simulation of crystalline solids.- Modeling and analysing thermal motion in experimental charge density studies.- Spin and the Complementary Worlds of Electron Position and Momentum Densities.- Past, present and future of charge density and density matrix refinements.- Using wavefunctions to get more information out of diffraction experiments.- Local Models for Joint Position and Momentum Density Studies.- Magnetization densities in material science.- Beyond Standard Charge Density Topological Analyses.- On the Interplay Between Real and Reciprocal Space Properties.- Intermolecular interaction energies from experimental charge density studies.- Chemical Information from Charge Density Studies.- Charge density in materials and energy science.- A generic force field based on Quantum Chemical Topology.- Frontier Applications of Experimental Charge Density and Electrostatics to Bio-Macromolecules.- Charge densities and crystal engineering.- Electron Density Topology of Crystalline Solids at High Pressure.- Bonding changes along solid-solid phase transitions using the Electron Localization Function approach.- Multi-temperature electron density studies.- Transient Charge Density Maps from Femtosecond X-Ray Diffraction.- Charge density and chemical reactions: a unified view from Conceptual DFT.