Molecular dynamics simulations of the adsorption of methylene blue at clay mineral surfaces
by Yu, C. H.; Newton, S. Q.; Norman, M. A.; Miller, D. M.; Schafer, L.; Teppen, B. J.
Molecular dynamics simulations were performed of the adsorption of methylene blue (MB) on model beidellite, montmorillonite, and muscovite mica surfaces, using a previously determined empirical force field developed for dioctahedral clays. The simulations show that the adsorption of MB on mineral surfaces can result in a variety of configurations, including single and double layers of MB parallel to the basal surface, and irregular clusters. The d(001) values of similar to 12.3 and similar to 15.7 Angstrom are assigned to dry phases with parallel single and double layers of MB, respectively, in agreement with X-ray studies. At intermediate MB loadings, stacks inclined to basal surfaces are formed. The stacks of MB ions inclined by 65-70 degrees relative to the (001) plane of muscovite are not found on dry surfaces, in contrast to previous studies. Configurations similar to those proposed by others form spontaneously in the presence of H(2)O, but the ions in the model systems are not quite as ordered and not ordered in exactly the same way as the ones previously described, and they display a mobility that is not compatible with strict atomic order. The formation of a triple layer of H(2)O interspersed with ions may occur in the interlayer. Overall, the results of the simulations confirm that the MB-ion method must be used with great caution in surface-area determinations, because of the multiplicity of possible configurations. At the same time, the ability for adsorption to occur as either single or multiple MB layers is useful to determine cation-exchange capacity over a wide range of surface-charge densities.
- Journal
- Clays and Clay Minerals
- Volume
- 48
- Issue
- 6
- Year
- 2000
- Start Page
- 665-681
- URL
- https://dx.doi.org/10.1346/ccmn.2000.0480608
- ISBN/ISSN
- 1552-8367; 0009-8604
- DOI
- 10.1346/ccmn.2000.0480608