Abstract
Retrieving heavy metals from wastewaters has become an important environmental challenge. We report that exposing dilute aqueous solutions or dispersions of cerium compounds (CeO2, Ce(SO4)2, CeF4) to perfluorohexane-saturated air results in substantial adsorption of these salts at the air/water interface, as consistently reflected by a marked decrease in interfacial tension, as assessed by bubble-shape profile analysis tensiometry. No detectable adsorption is observed in the absence of the fluorocarbon. Adsorption to the interface is also achieved when, and only when, CeO2 nanoparticle dispersions are exposed to the fluorocarbon vapor. We also found that microbubbles could be generated in cerium salt solutions and CeO2 nanoparticle dispersions when they are formed in the presence of perfluorohexane-saturated air, without need for any surfactant or chelating agent. Optical microscopy, static light scattering, and ζ potential measurements were used to establish the ability for the fluorocarbon to induce the...
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