Three-gradient regular solution model for simple liquids wetting complex surface topologies

Abstract: SummaryWe use regular solution theory and implement a three-gradient model for a liquid/vapour system in contact with a complex surface topology to study the shape of a liquid drop in advancing and receding wetting scenarios. More specifically, we study droplets on an inverse opal: spherical cavities in a hexagonal pattern. In line with experimental data, we find that the surface may switch from hydrophilic (contact angle on a smooth surface θY < 90°) to hydrophobic (effective advancing contact angle θ > 90°).… Show more

“…The regular solution theory was applied by Akerboom et al to study the advancing and receding contact angles of a liquid drop. The authors additionally applied a three-gradient model for a liquid/vapour system in contact with a complex surface geometry [ 22 ]. The authors concluded that the air entrapment is presumably not the main reason for the advancing contact angle variability.…”

Biological and biomimetic materials and surfaces

“…The regular solution theory was applied by Akerboom et al to study the advancing and receding contact angles of a liquid drop. The authors additionally applied a three-gradient model for a liquid/vapour system in contact with a complex surface geometry [ 22 ]. The authors concluded that the air entrapment is presumably not the main reason for the advancing contact angle variability.…”

Biological and biomimetic materials and surfaces