H. Abramovic et C. Klofutar, EYRING FUNCTIONS OF ACTIVATION FOR THE VISCOUS-FLOW OF SOME HIGHER ALCOHOLS IN CYCLOHEXANE SOLUTIONS, Monatshefte fuer Chemie, 129(8-9), 1998, pp. 827-834
The viscosities of solutions of l-octanol, 1-nonanol, and I-decanol in
cyclohexane up to concentrations of 1.56 mol . kg(-1) were determined
in the temperature range from 293.15 to 333.15 K. Applying Eyring's t
ransition state theory, the Eyring functions of activation for the vis
cous flow of binary mixtures, i.e. the molar Gibbs free energy, entrop
y, and enthalpy were estimated. The correlation coefficients beta(Y) (
Y = G, H, or S) were derived and used to discuss the initial effect of
the solute on the activation parameters for the viscous flow. From th
e partial molar thermodynamic functions of activation and the partial
molar volumetric data of solute and solvent at infinite dilution, the
viscosity coefficient B was determined. For the interpretation of the
experimental data, the Unified Interaction Parameter Formalism was use
d.