Abstract
Particular types of solid-stabilized emulsions can be thermodynamically stable as evidenced by their spontaneous
formation and monodisperse droplet size, which only depends on system parameters. Here, we investigate
the generality of these equilibrium solid-stabilized emulsions with respect to the basic constituents: aqueous
phase with ions, oil, and stabilizing particles. From systematic variations of these constituents, we identify
general conditions for the spontaneous formation of monodisperse solid-stabilized emulsions droplets. We
conclude that emulsion stability is achieved by a combination of solid particles as well as amphiphilic ions
adsorbed at the droplet surface, and low interfacial tensions of the bare oil-water interface of order 10 mN/m
or below. Furthermore, preferential wetting of the colloidal particles by the oil phase is necessary for
thermodynamic stability. We demonstrate the sufficiency of these basic requirements by extending the observed
thermodynamic stability to emulsions of different compositions. Our findings point to a new class of colloidstabilized
meso-emulsions with a potentially high impact on industrial emulsification processes due to the
associated large energy savings.
Original language | English |
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Pages (from-to) | 10347-10356 |
Number of pages | 10 |
Journal | Journal of Physical Chemistry. B |
Volume | 114 |
Issue number | 32 |
DOIs | |
Publication status | Published - 2010 |