Properties of surface-modified colloidal particles
Breiner, Joan M. (University of California. Department of Environmental Sciences)
Anderson, Michael A. (University of California. Department of Environmental Sciences)
Tom, Harry W. K. (University of California. Department of Physics)
Graham, Robert C. (University of California. Department of Environmental Sciences)

Data:	2006
Resum:	The reactivity of colloidal particles is regulated by their surface properties. These properties affect the wettability, flocculation-dispersion characteristics, ion exchange, sorption capacities and transport of inorganic colloids. Most studies have focused on hydrophilic, charged-particle surfaces, often ignoring the alterations in surface properties produced by the adsorption of natural organic matter, surfactants and other compounds. Adsorption of these substances can potentially render a surface substantially more hydrophobic. Nevertheless, comparatively little is known about changes in surface properties and reactivity of minerals upon sorption of hydrophobic organic compounds. In this study, the properties of four minerals (kaolinite, pyrophyllite, montmorillonite and Min-U-Sil®) and two inorganic materials (X-ray amorphous Al hydroxide and X-ray amorphous Si oxide) were compared before and after treatment with the common silylating agent, trimethylchlorosilane (TMCS). The samples were characterized by measurements of total carbon, cation exchange capacity (CEC), particle size, specific surface area (SSA), electrophoretic mobility, contact angle, particle aggregation, and by X-ray diffraction and diffuse reflectance infrared spectroscopy. For the layer silicates, surface coverage was limited to ∼-2% trimethyl silane (TMSi). TMSi covered 7. 5% of the Min-U-Sil® surface and 33% of the X-ray amorphous Si oxide. Treatment did not affect the structure of the minerals but reduced the CEC, SSA and electrophoretic mobilities. Water contact angles increased to between 18 and 114° with treatment. While the apolar characteristic of the surfaces decreased minimally with treatment, the Lewis acid/base properties were substantially reduced and interfacial free energy shifted from positive to negative values indicating a more hydrophobic surface character. For all the samples except kaolinite, these changes affected the stability of the colloids in suspension depending upon solution pH. Although the grafting of TMSi altered colloidal mineral surface properties and increased their hydrophobicity, these changes were not sufficient to predict colloid aggregation behavior.
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Llengua:	Anglès
Document:	Article ; recerca ; Versió publicada
Matèria:	Contact Angle ; Hydrophobic Surface ; Kaolinite ; Montmorillonite ; Pyrophyllite ; Quartz ; Trimethylchlorosilane
Publicat a:	Clays and Clay Minerals, Vol. 54, Núm. 1 (2006) , p. 12-24, ISSN 1552-8367

DOI: 10.1346/CCMN.2006.0540102

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