Electrowetting and droplet impalement experiments on superhydrophobic multiscale structures
Abstract
The reversible actuation of droplets on superhydrophobic surfaces under ambient conditions is currently an important field of research due to its potential applicability in microfluidic lab-on-a-chip devices. We have recently shown that Si-nanowire (NW) surfaces allow for reversible actuation provided that the surface structures show certain characteristics. In particular it appears that, for such surfaces, the presence of structures with multiple specific length scales is indeed needed to have a robust reversibility of contact angle changes. Here we report on electrowetting (
- This article is part of the themed collection: Wetting Dynamics of Hydrophobic and Structured Surfaces