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作 者:顾春元[1] 狄勤丰[1] 施利毅[1] 吴非[1] 王文昌[1] 余祖斌[1]
机构地区:[1]上海大学
出 处:《物理学报》2008年第5期3071-3076,共6页Acta Physica Sinica
基 金:国家自然科学基金(批准号:50674065);上海市科委重点攻关项目(批准号:071605102);上海市教委重点攻关项目(批准号:08ZZ45);上海市重点学科建设项目(批准号:Y0103);上海大学研究生创新基金资助的课题~~
摘 要:采用疏水纳米粉体压片法和岩心吸附法构建了具有微纳米结构的表面,测试了这些表面的接触角,拍摄了水滴在吸附纳米粒子的岩石表面的滚动过程照片,采用扫描电子显微镜(scanning electron microscope,SEM)检测了表面的微结构.实验结果表明:无机纳米粒子经弱疏水性材料修饰后,其表面润湿性由强亲水变为强疏水;疏水纳米粒子吸附表面的接触角均大于120°,滚动角约7°,显示出超疏水特性;SEM照片显示,这些超疏水表面是具有不规则微纳米结构的气固复合面,符合Cassie-Baxter的复合表面模型.Two kinds of micro- and nano-structural surfaces were constructed with hydrophobic nanoparticles(HNPs) directly. One of the surfaces was formed by compressing the nano powder to a smooth slice, the other was made by adsorbing the nanoparticles on the surface of rock wafer. The contact angles between water drops and the surfaces were measured and the rolling process of a water drop on the nanoparticles-adsorbed rock surface was pictured. The scanning electron microscope(SEM) was used to observe the microstructure of these surfaces also. The results show that the inorganic nanoparticles modified by weak hydrophobic material could have strong hydrophobic property, even though it was strongly hydrophibic initially. The measured contact angles of water drop on the nanoparticle-adsorbed rock surface are always greater than 120° and the rolling angles are less than 7°. These data means that these surfaces are superhydrophobic apparently. The SEM pictures show that these surfaces are air-solid compound interfaces with irregular micro- and nano-structure. It is these special structures that lead to the formation of superhydrophobic surfaces, which are in agreement with the Cassie-Baxter model.
分 类 号:TB383.1[一般工业技术—材料科学与工程]
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