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Dielectric Characteristics,Electrical Conductivity and Solvation of Ions in Electrolyte Solutions
Authors:Vladimir V. Shcherbakov  Yuliya M. Artemkina  Irina A. Akimova  Irina M. Artemkina
Affiliation:Department of General and Inorganic Chemistry, Mendeleev University of Chemical Technology, Miusskaya sq. 9, 125047 Moscow, Russia; (Y.M.A.); (I.A.A.); (I.M.A.)
Abstract:Solvation and association of ions in solutions largely depend on the dielectric properties of the solvent, the distance between ions in solutions, and temperature. This paper considers the effect of temperature on static dielectric constant (DC), dipole dielectric relaxation (DR) time, and limiting (ultimate) high frequency (HF) electrical conductivity (EC) of water and some polar solvents. In the investigated temperature range (0–370 °C), the static DC and DR time of water decrease, and limiting HF EC passes through a maximum at 250–300 °C with temperature growth. The dielectric characteristics of methanol, ethanol, and propanol behave in a similar way. It is shown that the existence of an HF EC temperature maximum is due to the different nature of the temperature dependences of DC and DR time. It is suggested that the same dependences are responsible for the presence of a maximum in the temperature dependences of the dissociation degree and the ionic product of water. The influence of non-electrolytes concentration as well as metal salts on the dielectric properties of their aqueous solutions is considered. The limiting HF EC of water determines the specific EC value of aqueous electrolyte solutions. Analysis of the absorption of microwave energy by polar solvents, as well as aqueous solutions of non-electrolytes and electrolytes, at a frequency of 2455 MHz is carried out. The optimal conditions for high-frequency heating of solutions have been established. The distance between ions in aqueous solutions of inorganic salts and in non-aqueous solutions of ionic liquids is calculated. It is shown that the maximum on the concentration dependence of the specific EC can be related to ions association.
Keywords:electrolyte solutions   ion solvation   electrical conductivity   dielectric constant   distance between ions in solutions
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