极端调控一维纳米结构的润湿性：从超亲水到完全疏水表面。

Extreme tuning of wetting on 1D nanostructures: from a superhydrophilic to a perfect hydrophobic surface.

机构信息

INM-Leibniz Institute for New Materials, Campus D2 2, 66123 Saarbrücken, Germany.

出版信息

Nanoscale. 2017 Oct 12;9(39):14814-14819. doi: 10.1039/c7nr05336c.

Abstract

The tuning of wetting over an extreme range, from superhydrophilic to superhydrophobic, was demonstrated on 1D Al/AlO nanostructures. While chaotic and tangled 1D Al/AlO nanostructures exhibited complete wetting, they became water repellent (with a water contact angle (CA) ≥173°) after the infiltration of poly[bis(2,2,2-trifluoroethoxy)phosphazene] (PTFEP) solution. This simple strategy allows the achievement of two extreme wetting regimes, perfect wetting and non-wetting, without altering the nanostructured surface topography. The same surface was also found to exhibit repellency towards artificial blood and hexadecane.

摘要

一维 Al/AlO 纳米结构上实现了超亲水到超疏水的极端润湿性调谐。当混沌和纠结的一维 Al/AlO 纳米结构完全被润湿时，它们在渗透聚双(2,2,2-三氟乙氧基)膦腈溶液后变得疏水(水接触角(CA)≥173°)。这种简单的策略允许在不改变纳米结构表面形貌的情况下实现两种极端的润湿状态，完全润湿和不润湿。同样的表面也表现出对人造血液和十六烷的排斥性。

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极端调控一维纳米结构的润湿性：从超亲水到完全疏水表面。

Extreme tuning of wetting on 1D nanostructures: from a superhydrophilic to a perfect hydrophobic surface.

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