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首页> 外文期刊>Proceedings of the Institution of Mechanical Engineers, Part N. Journal of Nanoengineering and Nanosystems >Superhydrophobic surfaces by dynamic nanomasking and deep reactive ion etching
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Superhydrophobic surfaces by dynamic nanomasking and deep reactive ion etching

机译:Superhydrophobic surfaces by dynamic nanomasking and deep reactive ion etching

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摘要

This paper reports a study on fabricating superhydrophobic surfaces with micro-and nanohierarchical topography by dynamic nanomasking (DNM) and deep reactive ion etching (DRIE). In this study, thin layers of gold (Au) were sputtered on silicon (Si) wafers followed by annealing the samples in a conventional furnace to break the thin films into Au nanoparticles attached to the Si surfaces. These randomly distributed nanoparticles served as dynamic nanomasks during DRIE processes, in which sulphur hexafluoride (SF_6) and octofluoro-cyclobutane (C_4F_8) were used as etching and polymerization gases, respectively. Surface topography and wetting properties of the samples were characterized by scanning electron microscopy (SEM) and a video-based optical contact angle meter (VOCAM). SEM images show that this technique created micro-sized craters with Au nanoparticles residing on the ridges of the microstructures. The largest water contact angle (WCA) obtained by this method is about 163°. The surface superhydrophobicity is attributed to the combination of micro- and nanohierarchical topography and surface polymerization.

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