Oil-in-Water Pickering Emulsions Stabilized by Halloysite Clay Nanotubes Toward Efficient Filterability

Unmodified natural clay particles, halloysite nano- tubes (HNTs; l = 800 nm, d(out)(er) = 50 nm, d(inner) = 15 nm), are used to stabilize oil-in-water Pickering emulsions (PEs). The hydrophilic HNTs are laterally attached to the oil/water interface and accumulate in bundles because of capillary forces. The nanotubes cover the oil droplets and prevent them from coalescing. The influence of HNT concentration on the oil droplet size and stability of the emulsions is investigated. An increase in the HNT concentration results in a nonmonotonous decrease in the droplet size, which can be attributed to changes in the packing parameter. The high mechanical stability of PEs allows for the separation of the oil droplets from the continuous phase by membrane filtration, and the emulsion phase could be highly concentrated up to around 90 vol % oil phase fraction. This study facilitates an accurate and more efficient application of HNT-stabilized PEs, e.g., for recyclable or continuous liquid/liquid reaction systems.