Fall and rise of small droplets on rough hydrophobic substrates

TL;DR

This paper reveals a new local equilibrium state for small droplets on rough hydrophobic surfaces, which upon evaporation transitions into the Cassie state, enabling a novel self-cleaning mechanism.

Contribution

It introduces an additional local equilibrium state for droplets comparable to the roughness scale, expanding understanding of wetting transitions on textured surfaces.

Findings

Existence of a new local equilibrium state for small droplets.

Transition of droplets into the Cassie state upon evaporation.

Potential for a new self-cleaning mechanism in hydrophobic capillary systems.

Abstract

Liquid droplets on patterned hydrophobic substrates are typically observed either in the Wenzel or the Cassie state. Here we show that for droplets of comparable size to the roughness scale an additional local equilibrium state exists, where the droplet is immersed in the texture, but not yet contacts the bottom grooves. Upon evaporation, a droplet in this state enters the Cassie state, leading to a qualitatively new self-cleaning mechanism. The effect is of generic character and is expected to occur in any hydrophobic capillary wetting situation where a spherical liquid reservoir is involved.