Abstract
Abstract A solution model is discussed which allows the microwave part of the permittivity spectrum of aqueous solutions to be related to characteristics of the hydration water. The parameters, which can be derived from measured dielectric spectra thereby are the hydration water relaxation time, the number of hydration water molecules per molecule of solute, the static orientational polarizability of the hydration water, and a quantity, which refers to the distribution of hydration water relaxation times. The (continuum) model, appropriate for solutions of (nearly) spherically shaped solute particles, has regard to internal electric fields resulting from polarization charges at interfaces. Possible errors in the parameter values are indicated, which may arise if the internal fields are only incompletely taken into account. Previously measured spectra for a series of aqueous solutions of 1,4-diazabicyclo[2,2,2]octane have been evaluated on the basis of the present model. The results for these (favourable) solutions are presented to show, that the found dependence of the parameter values on solute concentration is consistent with the idea of the proposed hydration model.
Published Version
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