中文摘要：

启发了由非光滑的结构和导致蜻蜓翅膀表面的 hydrophobicity 的蜡制的层共同联合，我们开发了一个简单、万用的方法与蜻蜓翅膀结构制作 superhydrophobic 表面。在这个工作， Ag nanorods 经由一条流电的减小途径在高度订的阳极的铝氧化物(AAO ) 上种了表面。然后 AAO-Ag 多层被制作。而且，表面 AAO-Ag 的免费精力多层被与 perfluorodecanethiol 修改减少。修改 AAO-Ag 多层 superhydrophobic 和静态的接触角度象 168 一样高被到达？？

英文摘要：

Inspired by the co-coupling of the non-smooth structure and the waxy layer inducing the hydrophobicity of dragonfly wing surface,we developed a simple and versatile method to fabricate a superhydrophobic surface with the dragonfly wing structures.In this work,Ag nanorods grew on highly ordered anodic aluminum oxide（AAO） surface via a galvanic reduction approach.Then the AAO-Ag multilayer was fabricated.Furthermore,the surface free energy of AAO-Ag multilayer was reduced by modifying with perfluorodecanethiol.The modified AAO-Ag multilayer was superhydrophobic and the static contact angle reached as high as 168°.X-ray photoelectron spectra（XPS） were used to characterize the chemical structure of the obtained products.The morphologies of AAO-Ag multilayer was similar to microstructure of dragonfly wing surface and presented hierarchical rough structure.The results showed that the co-coupling of the rough structure and low surface free energy induced the superhydrophobic performance of the AAO-Ag multilayer surface.