Solvation phenomena in specific physical, chemical, and biological systems

The importance of solvation as a concept which covers quite generally the interactions between a molecular solute particle and a macroscopic body of surrounding solvent is well recognized. Solvation plays a major role in the distribution of elements in the geo- and hydrosphere, and most chemical and biological processes involve solvated reactants and products, the electronic and molecular structure of which are strongly determined by solvation. This three-volume monograph has been written collectively by 50 authors from 14 countries who are specialists in different areas of solvation science. Part A deals with the theory of solvation; Part B is entirely devoted to spectroscopy of solvation; and Part C covers solvation phenomena in specific physical, chemical and biological systems. The volumes will be an invaluable reference source for physicists, physical chemists and biophysicists undertaking investigations into the diversified and fascinating areas of the physics and chemical physics of solvation at postgraduate and professional research levels.

Introduction. Solvation in action (A.A. Kornyshev, J. Ulstrup). Ion-Solvent and Ion-Ion Interaction Phenomena. Theories of solvated ion dynamics (J.B. Hubbard, P.G. Wolynes). Solvation effects in the excess properties of equilibrium and non-equilibrium ionic solutions (W. Ebeling, H. Krienke). Solvation Effects on Excess Electrons. Solvent effects in charge transfer processes (A.M. Kuznetsov et al.). The solvated electron (E.M. Itskovitch et al.). Excess electrons in nonpolar liquids (L. Nyikos, R. Schiller). Solvation Phenomena at Metal-Solution Interfaces. Solvation of a metal surface (A.A. Kornyshev). Solvation and interionic interactions at the metal-electrolyte solution interface (M.A. Vorotyntsev). Surface enhanced Raman scattering: physical and chemical aspects (A.G. Mal'shukov). Concentrated Ionic Systems. Ionic states in molten salts and concentrated electrolytes (P.V. Giaquinta, M.P. Tosi). Defect interactions in ionic solids (C.R.A. Catlow). Soliton aspects of ionic configurations and mobility in solids (J.K. Kjems). Macromolecular and Biological Systems. Solvation of proteins (J.L. Finney, H.F.J. Savage). Ionic solvation in DNA. Structural aspects (G.G. Malenkov). Magnetic resonance and macromolecule solvation dynamics (R.G. Bryant). Charge-medium interactions in biological charge transfer reactions (L.I. Krishtalik). Solvation effects on the transport of ions across cell membranes (D.G. Levitt). Applied Aspects of Solvation. Non-aqueous solutions for mineral and energy problems: Application of solvation phenomena (J. Avraamides, A.J. Parker). List of Keywords.