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Multicomponent electrolyte systems: Dependence of ionic mobilities on aqueous organic solvent structure
Authors:M Perie  J Perie  M Chemla
Institution:(1) Laboratoire d'Électrochimie-(U.A. 430), Université Pierre et Marie Curie, 4 place Jussieu, 75230 Paris, France
Abstract:Ionic mobility data for multicomponent electrolyte systems at low concentrations are scarce due to experimental difficulties and are actually restricted to aqueous solutions of alkali chlorides. Some new results are presented which have been obtained by using a radiotracer method valid even if one of the ionic species is present at very low concentrations (tracer ion). The following electrolyte systems (two electrolytes with a common ion in a solvent) have been investigated at a 0.5N total ionic strength: NaNO3–AgNO3, KNO3–AgNO3, LiNO3–AgNO3 either in pure water or in water-rich (acetonitrile or dimethylsulfoxide) mixed solvents. Since ionic conductivity data processing by an extended law generalized to mixtures, such as that proposed by Quint and Viallard, has proved to be delicate to handle, our experimental results have been compared with the qualitative predictions of the classical Onsager-Fuoss limiting law. The main conclusion of this work is to give clear experimental evidence of the inability of any continuum theory to predict the ionic mobilities when solvent structural effect have to be taken into account. Consequently, the ionic behavior, particularly that of the Ag+ ion, has been interpreted in terms of preferential solvation and solvent microscopic structure. The trace mobility measurements reflect the maximum structural effect on the ionic transport properties.
Keywords:Transference numbers  electrolyte mixtures  ionic conductivity  selective solvation
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