Title :
Superhydrophobic zinc oxide film: effect of hybrid nanostructure on hydrophobicity and wetting stability
Author :
Jun Wu ; Xin Yang ; Wei Lei ; Jun Xia ; Baoping Wang
Author_Institution :
Sch. of Electron. Sci. & Eng., Southeast Univ., Nanjing, China
Abstract :
Superhydrophobic surfaces have been attracting research interest in the areas of self-cleaning, drag reduction and fog condensation. However, many artificial superhydrophobic surfaces may be wetted under fluidic pressure and lose superhydrophobicity. To address this issue, the effect of surface morphologies on hydrophobicity and wetting stability should be investigated thoroughly. In this study, the authors describe a hybrid ZnO nanostructure which can be achieved by hydrothermal method. The hybrid nanostructure is constructed with a ZnO nanorods layer topped with a porous ZnO layer. The specific assembling format of the ZnO layers enhanced the stability of superhydrophobicity.
Keywords :
II-VI semiconductors; condensation; drag reduction; hydrophobicity; nanorods; nanostructured materials; porous semiconductors; semiconductor thin films; surface morphology; wetting; wide band gap semiconductors; zinc compounds; ZnO; ZnO nanostructure; artificial superhydrophobic surfaces; assembling format; drag reduction; fluidic pressure; fog condensation; hybrid nanostructure effect; hydrothermal method; porous ZnO layer; self-cleaning; superhydrophobic zinc oxide film; surface morphology effect; wetting stability;
Journal_Title :
Micro & Nano Letters, IET
DOI :
10.1049/mnl.2013.0143
