Equilibrium topology and partial inversion of Janus drops: a numerical analysis

Chemphyschem. 2013 Nov 11;14(16):3772-6. doi: 10.1002/cphc.201300635. Epub 2013 Sep 19.

Abstract

The equilibrium topology of an aqueous Janus emulsion of two oils, O1 and O2, with water, W, [(O1+O2)/W], is numerically evaluated with the following realistic interfacial tensions (γ): γO2/W =5 mN m(-1) , γO1/O2 =1 mN m(-1) , and γO1/W varies within the range 4-5 mN m(-1) , which is the limiting range for stable Janus drop topology. The relative significance of the two independently pivotal factors for the topology is evaluated, that is, the local equilibrium at the line of contact between the three liquids and the volume fraction of the two dispersed liquids within the drop. The results reveal a dominant effect of the local equilibrium on the fraction of the O2 drop surface that is covered by O1. In contrast, for a constant volume of O2, the impact of the interfacial tension balance on the limit of the coverage is modest for an infinite volume of O1. Interestingly, when the O1 volume exceeds this value, an emulsion inversion occurs, and the O1 portion of the (O1+O2)/W topology becomes a continuous phase, generating a (W+O2)/O1 Janus configuration.

Keywords: emulsion inversion; interfaces; janus emulsions; liquids; semiempirical calculations.