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Cotransport of fullerene nanoparticles and clay colloids in porous media: The relation between aggregation and transport
In the study, cotransport of fullerene nanoparticles ( n C 60 ) and mobile clay colloids (illite (ILL), kaolinite (KL), montmorillonite (ML)) in aquifer porous media and its relation to the aggregative interaction between these two types of particles was investigated. Minimal interaction occurred between n C 60 and ILL, resulting in unaffected transport. Strong heteroaggregation between ML and n C 60 resulted in not only significant retention of both particles during their cotransport but also the retention of n C 60 in the media pre-injected with ML. Strong homoaggregation of KL caused strong straining effect and consequently retention of both KL and n C 60 during their cotransport, however, the pre-emplacement of KL did not cause retention of n C 60 during the sequential injection of KL and n C 60 . Such aggregation behaviors were well demonstrated by the adsorption-sedimentation experiment, microscopic observation, the size and zeta-potential test, and model simulation. Based on the surface chemistry analysis, divalent-cation bridging between ML and n C 60 and hydrogen bonding between KL particles were responsible for the heteroaggregation and the homoaggregation, respectively. The study demonstrated the specificity of the aggregation between the mobile clays and n C 60 to the chemistry of the clays and its consequent effect on the cotransport of the particles, which is critical for assessment of the environmental risk of n C 60 .