Issue 24, 2014

Magnetically induced structural anisotropy in binary colloidal gels and its effect on diffusion and pressure driven permeability

Abstract

We report on the synthesis, microstructure and mass transport properties of a colloidal hydrogel self-assembled from a mixture of colloidal silica and nontronite clay plates at different particle concentrations. The gel-structure had uniaxial long-range anisotropy caused by alignment of the clay particles in a strong external magnetic field. After gelation the colloidal silica covered the clay particle network, fixing the orientation of the clay plates. Comparing gels with a clay concentration between 0 and 0.7 vol%, the magnetically oriented gels had a maximum water permeability and self-diffusion coefficient at 0.3 and 0.7 vol% clay, respectively. Hence the specific clay concentration resulting in the highest liquid flux was pressure dependent. This study gives new insight into the effect of anisotropy, particle concentration and bound water on mass transport properties in nano/microporous materials. Such findings merit consideration when designing porous composite materials for use in for example fuel cell, chromatography and membrane technology.

Graphical abstract: Magnetically induced structural anisotropy in binary colloidal gels and its effect on diffusion and pressure driven permeability

Associated articles

Supplementary files

Article information

Article type
Paper
Submitted
10 Feb 2014
Accepted
21 Mar 2014
First published
27 Mar 2014
This article is Open Access
Creative Commons BY license

Soft Matter, 2014,10, 4403-4412

Author version available

Magnetically induced structural anisotropy in binary colloidal gels and its effect on diffusion and pressure driven permeability

C. Abrahamsson, L. Nordstierna, J. Bergenholtz, A. Altskär and M. Nydén, Soft Matter, 2014, 10, 4403 DOI: 10.1039/C4SM00315B

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