研究员
招生学科专业:
光学工程 -- 【招收硕士研究生】 -- 航天学院
控制科学与工程 -- 【招收博士、硕士研究生】 -- 航天学院
电子信息 -- 【招收博士、硕士研究生】 -- 航天学院
毕业院校:哈尔滨工业大学
学历:哈尔滨工业大学
学位:工学博士学位
所在单位:航天学院
办公地点:航天学院D11-507
联系方式:yunhuawu@nuaa.edu.cn
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所属单位:材料科学与技术学院
发表刊物:NEW JOURNAL OF CHEMISTRY
关键字:SURFACE MODIFICATION FLUORINE-FREE COMPOSITE SILICA AIR WETTABILITY FILMS
摘要:Superhydrophobic coatings treated as surface functional materials are endowed with great application potential with respect to self-cleaning, drag-reduction, anti-icing, etc. In this study, we fabricated a highly flexible and mechanically robust superhydrophobic F-SiO2@PDMS coating through a facile layer-by-layer strategy. It was demonstrated that PDMS played a crucial role of binder for immobilizing the F-SiO2 nanoparticles and improving their adhesion to substrate materials. Meanwhile, the PDMS layer endowed the superhydrophobic coating with superior mechanical flexibility. Finally, the as-constructed superhydrophobic coating exhibited excellent water-repellency with a high water contact angle of 156.5 degrees and low sliding angle of only 2.0 degrees. Furthermore, the water adhesion strength on the superhydrophobic coating was only 2 mu N, indicating its ultralow viscous resistance to dynamic moving water droplets. The superhydrophobic F-SiO2@PDMS coating was independent of the substrates without any limitations, and they exhibited high flexibility and mechanical robustness with the elongation ratio reaching 83.3% under the conditions of high superhydrophobicity. Also, the superhydrophobic coating exhibited strong durability under the severe environments of corrosion and mechanical abrasion. Thus, the as-fabricated highly flexible and mechanically robust superhydrophobic F-SiO2@PDMS coating is considered to be an ideal candidate for applications in the fields of self-cleaning and drag-reduction.
ISSN号:1144-0546
是否译文:否
发表时间:2018-11-21
合写作者:Wu, Yu,沈一洲,陶杰,He, Zhaoru,Xie, Yuehan,Chen, Haifeng,Jin, Mingming,Hou, Wenqing
通讯作者:沈一洲,陶杰,吴云华