A. V. Klochko, E. S. Klepikova, V. R. Kopach, G. S. Khrypunov, Yu. A. Myagchenko, Е. Е. Мельничук, V. M. Lyubov, A. V. Kopach, “On controlling the hydrophobicity of nanostructured zinc-oxide layers grown by pulsed electrodeposition”, Fizika i Tekhnika Poluprovodnikov, 2016, Volume 50, Issue 3,Pages <nobr>357

This article is cited in 15 papers

Micro- and nanocrystalline, porous, composite semiconductors

On controlling the hydrophobicity of nanostructured zinc-oxide layers grown by pulsed electrodeposition

A. V. Klochko^a, E. S. Klepikova^a, V. R. Kopach^a, G. S. Khrypunov^a, Yu. A. Myagchenko^b, Е. Е. Мельничук^b, V. M. Lyubov^a, A. V. Kopach^a

^a Khar'kov Polytechnical University
^b National Taras Shevchenko University of Kyiv

Abstract: The possibility of fabricating highly hydrophobic nanostructured zinc-oxide layers by the inexpensive method of pulsed electrodeposition from aqueous solutions without water-repellent coatings, adapted for large-scale production, is shown. The conditions of the deposition of highly hydrophobic nanostructured zinc-oxide layers exhibiting the “rose-petal” effect with specific morphology, optical properties, crystal structure and texture are determined. The grown ZnO nanostructures are promising for micro- and nanoelectronics as an adaptive material able to reversibly transform to the hydrophilic state upon exposure to ultraviolet radiation.

Keywords: Contact Angle, Water Drop, Pulse Electrodeposition, Wenzel State, Adaptive Material.

Received: 18.06.2015
Accepted: 08.07.2015