Optically Induced Rapid Wetting Transition on Zn-Polar and O-Polar Zinc Oxide

Abstract: The design and fabrication of surfaces that support rapid wetting transition remain technologically challenging. Here, we examine the effects of optical illumination on the wetting behaviors of zinc oxide (ZnO) single crystals. We find that ultraviolet irradiation above the band gap energy promotes a rapid wetting transition, characterized by sliding of the water droplet, within a few seconds. Notably, the transition for Zn-polar (0001) ZnO surfaces is even faster than that for O-polar (0001̅ ) ZnO surfaces. W… Show more

“…There are arguments on the wettability transition process of metallic surfaces [11][12][13]. One explanation is that the recovered hydrophobicity could be plagued by the adsorption of nonpolar contaminants such as carbon species to the surface [14].…”

Study on the influencing factors of spontaneous wettability transition behaviour on metallic-based surfaces

“…There are arguments on the wettability transition process of metallic surfaces [11][12][13]. One explanation is that the recovered hydrophobicity could be plagued by the adsorption of nonpolar contaminants such as carbon species to the surface [14].…”

Study on the influencing factors of spontaneous wettability transition behaviour on metallic-based surfaces

Structural characterization and surface polarity determination of polar ZnO films prepared by MBE

Recent advances in light-induced cell sheet technology