Building reconfigurable devices using complex liquid–fluid interfaces
J Forth, PY Kim, G ** ligands to control adsorption, stability and dynamics
Nanoparticle self-assembly at fluid–fluid interfaces has been traditionally exploited in
emulsification, encapsulation and oil recovery, and more recently in emerging applications …
emulsification, encapsulation and oil recovery, and more recently in emerging applications …
Particle-stabilised foams: an interfacial study
A Stocco, W Drenckhan, E Rio, D Langevin, BP Binks - Soft Matter, 2009 - pubs.rsc.org
In an attempt to elucidate the remarkable stability of foams generated from dispersions of
partially hydrophobic nanoparticles (fumed silica), we present investigations into the static …
partially hydrophobic nanoparticles (fumed silica), we present investigations into the static …
Capillary forces between particles at a liquid interface: General theoretical approach and interactions between capillary multipoles
The liquid interface around an adsorbed colloidal particle can be undulated because of
roughness or heterogeneity of the particle surface, or due to the fact that the particle has non …
roughness or heterogeneity of the particle surface, or due to the fact that the particle has non …
Collapse of particle-laden interfaces under compression: buckling vs particle expulsion
Colloidal particles can bind to fluid interfaces with a capillary energy that is thousands of
times the thermal energy. This phenomenon offers an effective route to emulsion and foam …
times the thermal energy. This phenomenon offers an effective route to emulsion and foam …