Observation of Mutual Diffusion Coefficients and Cooperative Motions in Binary Solutions of t-Butyl Alcohol–Water and 2-Butoxyethanol–Water

Abstract

Rayleigh scattering spectra were observed for the binary solutions of t-butyl alcohol(TBA)–water and 2-butoxyethanol (BE)–water. The observed line-widths were reduced to mutual diffusion coefficients. The observed concentration dependencies of the mutual diffusion coefficients were well explained by postulating the existence of “moving units”— a group of molecules which move together for a time much longer than the velocity autocorrelation time. The structure of the moving units which are formed in the TBA–water solution was (H₂O)₂₀TBA for X_TBA\lesssim0.05, and 4(H₂O)₂₀TBA for X_TBA\gtrsim0.05, where X_TBA is the mole fraction of TBA. For the BE–water solution, the structure was found to be (H₂O)₅₀BE for X_BE\lesssim0.02 and 3(H₂O)₅₀BE for X_BE\gtrsim0.02. These results were compared with the results which had been obtained from the concentration dependencies of the mean-square concentration fluctuation values.