Evolution of particle-scale dynamics in an aging clay suspension

Abstract

Multispeckle x-ray photon correlation spectroscopy was employed to characterize the slow dynamics of a colloidal suspension formed by highly-charged, nanometer-sized disks. At scattering wave vectors q corresponding to interparticle length scales, the dynamic structure factor follows a form f(q,t) [-(t/τ)β], where β ≈ 1.5. The characteristic relaxation time τ increases with the sample age ta approximately as τ ta1.8 and decreases with q approximately as τ q-1. Such a compressed exponential decay with relaxation time that varies inversely with q is consistent with recent models that describe the dynamics in disordered elastic media in terms of strain from random, local structural rearrangements. The amplitude of the measured decay in f(q,t) varies with q in a manner that implies caged particle motion at short times. The decrease in the range of this motion and an increase in suspension conductivity with increasing ta indicate a growth in the interparticle repulsion as the mechanism for internal stress development implied by the models.

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