Heavy metal-adsorption on micas and clay minerals studied by X-ray photoelectron spectroscopy

X-ray photoelectron spectroscopy (XPS) was used to study the adsorption of Cs-, Ba-, Cu-, Zn-, and Pb-ions on the external surfaces of various, well characterized 2:1 layer silicates (micas and illites). Before studying metal adsorption, it was necessary to determine the charge magnitude of the adsorption surface. This was done fur chemically well-characterized micas (margarite, muscovite, sericite). The XPS analyses showed that the depth of analysis is about 15 Angstrom. As a result it was possible to measure the surface- and interlayer ions on both sides of the outermost 2:1 layer. In determining the layer charges, the following strategy was used. The outer surface cations were replaced by Ba2+, giving, for ideal margarite an interlayer cation (Ca2+)/surface cation (Ba2+) ratio of 2:1 and in the case of muscovite a K+/Ba2+ ratio of 4:1. Deviations from these ratios indicate an asymmetry of layer charge in the outer sheet. Using the magarite, muscovite and sericite as standards, surface charge determination of a number of micas, illites, and I/S clays could be carried out by XPS. The properties of the metal-ions (charge, ionic radius, ionic potential), as well as layer charge characteristics of the clay, including surface charge magnitude and point of origin from tetrahedral or octahedral substitution, are factors which influence adsorption selectivity [Sposito, G., 1989. surface reactions in natural aqueous colloidal solutions, G. Chimia, 43, 169-176]. The selection of previously well-characterized minerals, margarite, muscovite, celadonite, illite, montmorillonite, and beidellite for XPS study made it possible to relate these factors to heavy metal adsorption by the clay minerals. The results show that Cu2+ and Zn2+ are adsorbed as monovalent ions, presumably as (CuOH)(1+) and (ZnOH)(1+) hydroxy surface-complexes, due to their high ionic potential. Saturating the mica series with equimolar pairs of Cu-Zn and Cu-Pb, the ratios of Cu/Zn and Cu/Pb increase systematically with external surface charge. The higher the surface charge, the more selective is the exchange process for Cu with respect to Zn or ph. Increasing external surface charge parallels increasing tetrahedral charge, which indicates that selectivity takes place at points of tetrahedral negativity on the crystallite surface, whereas octrahedral charge plays little role in the selective adsorption process. (C) 2000 Elsevier Science B.V. All rights reserved.