The Physics and Chemistry of Aqueous Ionic Solutions
[Book]
edited by M.-C Bellissent-Funel, G.W. Neilson.
Dordrecht
Springer Netherlands
1987
(492 pages)
NATO ASI Series, C: Mathematical and Physical Sciences,, 205.
Basic Statistical Theory of Liquids --; Theory of Ionic Solutions at Equilibrium --; Non-Equilibrium Theories of Electrolyte Solutions --; Diffraction Studies of Aqueous Ionic Solutions --; Neutron and NMR Spectroscopy of Aqueous Ionic Solutions --; Light Scattering and Related Topics --; Molecular Dynamics Simulations of Aqueous Ionic Solutions --; Structural Models of the Electrode/Electrolyte Interface --; Electrode/Electrolyte Interfaces: Experimental Results --; Basic Theory of Polyelectrolytes --; Experiments on Polyelectrolyte Solutions --; Supercritical Studies --; The Study of Aqueous Ionic Glasses --; Natural Aqueous Solutions in the Earth --; Theoretical Calculations of Ionic Solutions --; Computer Simulation of Electrolyte Solutions --; Structured Monolayers of Charged and Polar Molecules at the Liquid/Air Interface --; Chemical Equilibrium Between Minerals and Natural Waters --; Solid Aqueous Solutions --; Vitrification and Crystallization of Water --; Posters --; Postscript and Summary --; Formula and Compound Index.
J.E. Enderby At the last NATO-ASI on liquids held in Corsica, (August 1977), Professor de Gennes, in his summary of that meeting, suggested that the next ASI should concentrate on some specific aspect of the subject and mentioned explicitly ionic solutions as one possibility. The challenge was taken up by Marie-Claire Bellissent-Funel and George Neilson; I am sure that all the participants would wish to congratulate our two colleagues for putting together an outstanding programme of lectures, round tables and poster session. The theory which underlies the subject was covered by four leading authorities: J.-P. Hansen (Paris) set out the general framework in terms of the statistical mechanics of bulk and surface properties; H.L. Friedman (Stony Brook) focused attention on ionic liquids at equilibrium, and J.B. Hubbard considered non-equilibrium properties such as the electrical conductivity and ionic friction coefficients. Finally, the basic theory of polyelectrolytes treated as charged linear polymers in aqueous solution was presented by J.M. Victor (Paris).
Proceedings of the NATO Advanced Study Institute, Cargèse, Corsica, France, June 22-July 5, 1986