超疏水表面微纳结构设计与制备及润湿行为调控（Ⅱ） Superhydrophobic Surfaces： Design and Fabrication of Micro/ Nanomicrotextures and the Tuning of Wetting Behavior（Ⅱ）期刊界 All Journals 搜尽天下杂志传播学术成果专业期刊搜索期刊信息化学术搜索

超疏水表面微纳结构设计与制备及润湿行为调控（Ⅱ）

引用本文：	崔晓松,姚希,刘海华,方国平,李文,江雷.超疏水表面微纳结构设计与制备及润湿行为调控（Ⅱ）[J].稀有金属快报,2010(2):31-44.

作者姓名：	崔晓松姚希刘海华方国平李文江雷

作者单位：	湘潭大学材料与光电物理学院低维材料及其应用技术教育部重点实验室;中国科学院化学研究所有机固体重点实验室;

基金项目：	国家自然科学基金项目(20973146); 湖南省教育厅科学基金项目(08A068)资助

摘要：	超疏水表面因其优异的自洁排水性能可望在高科技领域和日常生活等方面有美好的应用前景。目前通过对荷叶表面微纳结构仿生已达到在亲水材料上制备超疏水表面的准商业化水平。然而，超疏水表面现有制备方法一般都工艺复杂和费用高昂，同时其超疏水性与其他材料性能很难相容，限制了其实际应用。对此，特别需要深入理论研究，优化设计表面微纳结构，同时充分利用外界作用调控其润湿行为，实现其在某些高科技领域的率先应用。针对超疏水表面研究的这些关键问题，重点评述了当前超疏水表面理论研究特别是表面几何设计方面的最新进展，总结了目前国内外制备超疏水表面的流行技术方法，进而讨论了利用外界作用调控超疏水行为的可能性。
关键词：	超疏水接触角接触角滞后几何设计制备方法
Superhydrophobic Surfaces： Design and Fabrication of Micro/ Nanomicrotextures and the Tuning of Wetting Behavior（Ⅱ）

CUI Xiaosong,YAO Xi,LIU Haihua,FANG Guoping,LI Wen,JAING Lei , Faculty of Materials , Optoelectronic Physics,Xiangtan University,Hunan Xiangtan ,Chin...Superhydrophobic Surfaces： Design and Fabrication of Micro/ Nanomicrotextures and the Tuning of Wetting Behavior（Ⅱ）[J].Rare Metals Letters,2010(2):31-44.

Authors:	CUI Xiaosong YAO Xi LIU Haihua FANG Guoping LI Wen JAING Lei Faculty of Materials Optoelectronic Physics Xiangtan University Hunan Xiangtan Chin

Affiliation:	CUI Xiaosong,YAO Xi,LIU Haihua,FANG Guoping,LI Wen,JAING Lei(1.Key laboratory of Low Dimensional Materials , Application Technology (Ministry of Education) , Faculty of Materials , Optoelectronic Physics,Xiangtan University,Hunan Xiangtan 411105,Chin.)2.(State Key Laboratory of Organic Solids,Institute of Chemistry,Chinese Academy of Sciences,Beijing 100080,China)

Abstract:	Superhydrophobic surfaces are promising for potential applications in the high-technology field and daily life because of their excellent water-repellent and self-cleaning properties.At present,by mimicking the micro-nano structures of lotus leaves,it is available to fabricate superhydrophobic surfaces based on hydrophilic materials,which can almost be commercially applicable.However,the fabrication techniques for superhydrophobic surfaces are not only complicated but also expensive,and superhydrophobicity ...

Keywords:	superhydrophobic contact angle contact angle hysteresis geometrical design fabrication method
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