We demonstrate that the formation of bicontinuous emulsions stabilized by interfacial particles (bijels) is more robust when nanoparticles rather than microparticles are used. Emulsification via spinodal demixing in the presence of nearly neutrally wetting particles is induced by rapid heating. Using confocal microscopy, we show that nanospheres allow successful bijel formation at heating rates two orders of magnitude slower than is possible with microspheres. In order to explain our results, we introduce the concept of mechanical leeway, i.e., nanoparticles benefit from a smaller driving force towards disruptive curvature. Finally, we suggest that leeway mechanisms may benefit any formulation in which challenges arise due to tight restrictions on a pivotal parameter, but where the restrictions can be relaxed by rationally changing the value of a more accessible parameter.
[1]
Olga Smirnova,et al.
Nature in London
,
2016
.
[2]
R. Misra,et al.
Biomaterials
,
2008
.
[3]
Tobias J. Hagge,et al.
Physics
,
1929,
Nature.
[4]
M. Grunwald.
Principles Of Condensed Matter Physics
,
2016
.
[5]
J. Matthey.
Particle-Stabilized Emulsions and Colloids : Formation and Applications ”
,
2015
.
[6]
S. Wereley,et al.
Soft Matter
,
2014
.