热印迹工艺制备疏油功能表面的表征

RAN Pub Date : 2017-04-01 DOI:10.11159/ICNNFC17.109
Kwang-Jin Bae, W. Yao, Y. Cho
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引用次数: 0

摘要

纳米结构是超疏水或疏油材料获得适当表面粗糙度的先决条件。近年来,各种纳米技术在低能表面和多尺度粗糙度的基础上,开发了具有纳米凸点的合成表面[1]。特别是,防污、除冰、抗菌和自洁表面对于提高建筑、汽车、医疗器械和家庭护理的能源效率非常重要[2]。在过去的二十年里,受荷叶效应启发的超疏水纳米结构和纳米涂层得到了广泛的研究。然而,对疏水表面的研究却很少受到重视。因此,创造功能表面是一个挑战,它不仅可以完全抵抗水的润湿,还可以抵抗油等有机液体的润湿[3]。本文研究了利用热压印技术制备疏油表面并对其进行表征。在热压印工艺中,制备了柱阵镍(Ni)印记。在压印过程中,制备PMMA(聚甲基丙烯酸甲酯)衬底并加热到玻璃化转变温度以上。结果,微图案化PMMA片成功成型[图1]。通过应用氟涂层(DURASURF, HARVES)。在微图案化PMMA薄片上叠加聚合物纳米颗粒,进行表面改性。因此,具有超疏水和疏油特性的分层复杂表面在微观模式上具有复杂的纳米粒子。这种分层结构对其拒油性能起着重要作用。结果表明,镍印记表面水的接触角约为150°,十六烷的接触角约为118°。该方法可适用于自洁、防污、防霜等多种应用。此外,我们将详细讨论形成疏油涂层的机理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Characterization of Oleophobic Functional Surfaces Fabricated by Thermal Imprinting Process
Extended Abstract Nanostructure is the prerequisite to obtain an appropriate surface roughness for the superhydrophobicity or oleophobicity. Synthetic surfaces with nano-sized bumps have been recently developed based on low-energy surface and multiscale roughness by various nanotechniques [1]. Especially, antifouling, deicing, antibacterial, and self-cleaning surfaces are important for improving the energy efficiency of building, automobile, medical devices, and household care [2]. During the past two decades, superhydrophobic nanostructures and nanocoatings that are inspired by the lotus-leafs effect have been extensively studied. However, studies on the oloephobic surfaces were paid less attention. Therefore, it is a challenge to create functional surfaces which completely resist wetting not only by water, but also by organic liquids such as oils [3]. In this work, a study on fabrication and characterization of oleophobic (repellent to oil) surface using thermal imprint lithography is conducted. For thermal imprinting process, a nickel (Ni) stamp with pillar-array was fabricated. During the imprint lithography, the PMMA (polymethyl methacrylate) substrate was prepared and heated above the glass transition temperature. As a result, the micro-patterned PMMA sheet was successfully formed [Fig. 1]. By application of fluoride coating (DURASURF, HARVES. Co.) and polymer nano-particles stacking on the micro-patterned PMMA sheet, a surface modification was carried out. Thus, the hierarchical complex surfaces which have superhydrophobic and oleophobic properties with complex nano-particles on micro-patterns were created. This hierarchical structure played an important role in oil-repellent properties. As a result, the imprinted surface from nickel stamp showed contact angle around 150° for water and 118° for hexadecane. This method can be applicable for a variety of applications such as self-cleaning, antifouling, and antifrosting. Furthermore, we will discuss the mechanism of creating an oleophobic coating in details.
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