“…[3] This allows the formulation of nanoemulsions from a larger cross-section of fluids, including aqueous solutions and hydrocarbons, [5] fluorocarbon oils, [6,7] precursors for polymeric [1,2,8] and inorganic materials, [9,10] and more exotic materials including ionic liquids [11] and liquid metals. [12] As such, nanoemulsions have become important to a wide range of applications including pharmaceuticals [13] and nanomedicine, [6,7,14] foods [15][16][17] and consumer products, [18] nanotechnology, [19] energy conversion and efficiency, [20,21] sensors [22][23][24] and sustainable chemistry. [25] This diverse set of applications has driven significant efforts to understand the colloidal behavior of nanoemulsions including their interactions, stability, microstructure and rheology.…”