Making
Non-aqueous High Internal Phase Pickering Emulsions:
Influence of Added Polymer and Selective Drying
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Abstract
We report the first example of a
non-aqueous (oil-in-oil) Pickering
high internal phase emulsion (HIPE) stabilized by chemically modified
fumed silica. In this case, a 75 vol % ethylene carbonate (EC)-rich
internal phase is emulsified in 25 vol % <i>p</i>-xylene
(xylene)-rich continuous phase using interfacial nanoparticles. It
is revealed that no phase inversion takes place during the HIPE formation
process when using the appropriate wettability of solid particles.
Incorporating polystyrene (PS) into xylene enables one-step formation
of PS-filled HIPEs in place of a multi-step polymerization of the
continuous phase. We observe that the size of droplets changes with
the addition of PS, and we associate this with the change in the viscosity
of the continuous xylene-rich phase. Drying the pure HIPE results
in the selective removal of xylene and coalescence of EC-rich droplets.
With the PS in the xylene-rich continuous phase, we show that EC-rich
droplets can be retained even though the xylene is evaporated off,
and a new semi-solid composite containing both liquid phase and solid
phase is formed via this non-aqueous Pickering-HIPE template