Adsorption of Acicular Particles at Liquid−Fluid Interfaces and the Influence of the Line Tension

Abstract: In this paper, the adsorption energy of an acicular (prolate and cylindrical) particle onto a liquid-fluid interface and the effect of the line tension are investigated. The results show that, without line tension, acicular particles always prefer to lie flat in the plane of the interface. However, line tension plays a significant role in determining the adsorption of an acicular particle. First, the line tension creates an energy barrier for the adsorption of particles onto an interface. The planar configurat… Show more

“…They estimated the adsorption energy of different particle shapes, these included ellipsoids, cylinders and sphero-cylinders. The adsorption free energies for these particle shapes obtained from the triangular tessellation technique were verified with a semi-analytical model derived from Dong and Johnson [14]. It was concluded that, whilst the semi analytic technique was quicker, it was time consuming to derive and prone to error and it was suggested that the triangular tessellation technique could be used to verify the semi analytical models.…”

An investigation of the stable orientations of orthorhombic particles in a thin film and their effect on its critical failure pressure

“…They estimated the adsorption energy of different particle shapes, these included ellipsoids, cylinders and sphero-cylinders. The adsorption free energies for these particle shapes obtained from the triangular tessellation technique were verified with a semi-analytical model derived from Dong and Johnson [14]. It was concluded that, whilst the semi analytic technique was quicker, it was time consuming to derive and prone to error and it was suggested that the triangular tessellation technique could be used to verify the semi analytical models.…”

An investigation of the stable orientations of orthorhombic particles in a thin film and their effect on its critical failure pressure

“…Under optimal conditions, there is a significant free energy change associated with the removal of particles from the oil-water interface, which results in tenacious interfacial anchoring (Dong & Johnson, 2005):…”

Microbial cells as colloidal particles: Pickering oil-in-water emulsions stabilized by bacteria and yeast

“…[44,46] As the particle size gets smaller, contribution from the line tension has to be considered, as demonstrated by Johnson and Dong. [47] Besides the traditional surface-tension arguments, another scenario has been reported for highly charged particles. Chaikin and co-workers reported that when poly-(methyl methacrylate) particles were suspended in bromocyclohexane, which is an oil with a relatively high dielectric constant, these hydrophobic nonwetting particles can be strongly bound to oil-water interfaces because of image charge effects (Figure 4).…”

Synthesis of Nano/Microstructures at Fluid Interfaces