共查询到17条相似文献,搜索用时 93 毫秒
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超疏水表面如薄膜由于具有重要应用前景而广受关注,但目前仍缺少能够经济、大规模制备方法.本研究先用不同配比的蚀刻液分别对不锈钢、黄铜、铝合金表面进行可控刻蚀,得到具有适当粗糙度的系列金属表面,再以此金属表面为模板,通过热压微模塑-拉伸工艺制得了聚烯烃超疏水表面,接触角大于150°,滚动角小于5°.扫描电镜照片显示超疏水表... 相似文献
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在直流恒电压条件下,以草酸为电解液制备了多孔氧化铝模板。采用扫描电子显微镜对多孔氧化铝模板的形貌进行表征。氧化铝模板的厚度测量表明,当氧化时间为6h时,氧化膜厚度达到最大值35.0mm。根据氧化过程的j-t曲线研究了多孔氧化铝模板的形成过程。 相似文献
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以磷酸溶液为电解液、以高纯铝为阳极,采用两步阳极氧化法制备氧化铝模板。扫描电子显微镜(SEM)对其表面形貌分析表明,氧化铝膜为多孔结构,膜孔径随着阳极氧化电压的增大而不断增大。对阳极氧化电流密度变化分析证实,铝的阳极氧化经历了三个阶段:阻挡层的生成、多孔层的形成和多孔层的稳定生长。以制备的氧化铝膜为阴极、锌片为阳极,以硝酸锌和硼酸的混合液为电解液,采用交流电沉积方法制备了针状氧化锌纳米线。 相似文献
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用颗粒模板法对生漆膜表面改性,将高温预固化后的漆酚膜表面覆压嵌入碳酸钙颗粒模板,待漆膜完全固化后再用酸洗除去模板,制备得到表面具有超疏水性的生漆膜。通过接触角、红外光谱(FT-IR)、扫描电子显微镜(SEM)等分析方法,研究了改性漆膜表面的润湿性、化学及形态结构。结果表明,当颗粒模板粒径为3000目时,改性漆膜表面的接触角可达153.5°,表现出超疏水特性。生漆膜改性后表面的化学组成未发生变化,但其表面产生了微/亚微米级的复合多孔结构,此多孔粗糙结构是漆膜表面呈现超疏水性的原因。改性漆膜表面还显示出良好的超疏水持久性。 相似文献
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采用含有三氯化铁和盐酸的水溶液刻蚀金属黄铜表面,在黄铜表面上得到了一层由不规则块状结构和更细小的乳突状结构相结合的具有双重粗糙度的阶层结构。该表面经氟化处理后表现出超疏水性,水在该表面上的接触角达到了157°,接触角滞后为5°。考察了不同刻蚀时间对表面疏水性的影响,结果表明,刻蚀时间对表面上这种阶层结构的形成和水滴在表面上的接触角数据都有十分重要的影响。随着刻蚀时间的增加,表面上逐渐开始形成粗糙结构,接触角数据也不断增加,增加到一定数值后,接触角变化开始不明显。接触角滞后随着接触角的增加而减小。初步分析了这种阶层结构的形成机制,并用Cassie理论对表面的润湿性进行了分析。 相似文献
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《Ceramics International》2016,42(9):10704-10710
This paper presents an effective method to fabricate highly porous zinc oxide (ZnO) derived from different wood templates, where the microstructure features of wood template were well reproduced in the final product. Biomorphic ZnO was fabricated via the sol–gel method by the infiltration of the precursor sol into the wood template and the sintering of wood template at high temperature under air atmosphere. Many characterization methods such as x-ray diffraction (XRD), scanning electron microscopy (SEM) and pore size analyzer detection were used to investigate the crystalline phase and microstructure of the product as well as the pore size of biomorphic ZnO. In our work, highly porous ZnO derived from different wood templates had been prepared. The relevant results revealed that the specie of wood template and sintering temperature played vital roles in the pore size, specific surface area and pore volume of the product. 相似文献
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Nanoporous alumina which was produced by a conventional direct current anodization [DCA] process at low temperatures has received much attention in various applications such as nanomaterial synthesis, sensors, and photonics. In this article, we employed a newly developed hybrid pulse anodization [HPA] method to fabricate the nanoporous alumina on a flat and curved surface of an aluminum [Al] foil at room temperature [RT]. We fabricate the nanopores to grow on a hemisphere curved surface and characterize their behavior along the normal vectors of the hemisphere curve. In a conventional DCA approach, the structures of branched nanopores were grown on a photolithography-and-etched low-curvature curved surface with large interpore distances. However, a high-curvature hemisphere curved surface can be obtained by the HPA technique. Such a curved surface by HPA is intrinsically induced by the high-resistivity impurities in the aluminum foil and leads to branching and bending of nanopore growth via the electric field mechanism rather than the interpore distance in conventional approaches. It is noted that by the HPA technique, the Joule heat during the RT process has been significantly suppressed globally on the material, and nanopores have been grown along the normal vectors of a hemisphere curve. The curvature is much larger than that in other literatures due to different fabrication methods. In theory, the number of nanopores on the hemisphere surface is two times of the conventional flat plane, which is potentially useful for photocatalyst or other applications.PACS: 81.05.Rm; 81.07.-b; 82.45.Cc. 相似文献
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