Using Synchrotron X-ray Scattering to Study the Diffusion of Water in a Weakly-hydrated Clay Sample

We study the diffision of water in weakly-hydrated samples of the smectite clay Na-fluorohectorite, The quasi one-dimensional samples are dry compounds of nano-layered particles consisting of 80 silicate platelets. Water diffises into a sample through the mesoporosity in between the particles, and can subsequently intercalate into the adjacent particles. The samples are placed under controlled temperature. They are initially under low humidity conditions, with all particles in a 1 WZ, intercalation state, We then impose a high humidity at one sample end, triggering water penetration along the sample length. We monitor the progression of the humidity front by monitoring the intercalation state of the particles in space and time. This is done by determining the characteristic spacing of the nano-layered particles in situ, from synchrotron wide-angle X-ray scattering measurements. The spatial width of the intercalation front is observed to be smaller than 2mm, while its velocity decreases with time, as expected from a diffusion process,