Sustainable Approach to Superhydrophobic Surfaces Based on Water-Born Electrospinning

被引:6
作者
Doimoto, Mitsunobu [1 ,2 ]
Greiner, Andreas [1 ]
机构
[1] Univ Bayreuth, Macromol Chem & Bavarian Polymer Inst, Univ Str 30, D-95440 Bayreuth, Germany
[2] JSR Corp, High Performance Film Tech Dept, Edge Comp Res Labs, 100 Kawajiri Chou, Yokaichi, Mie 5108552, Japan
来源
MACROMOLECULAR MATERIALS AND ENGINEERING | 2018年 / 303卷 / 09期
关键词
coating; electrospinning; roll-angle; superhydrophobicity; CHEMICAL-VAPOR-DEPOSITION; POLYMERS; LITHOGRAPHY; NANOFIBERS; HYDROPHOBICITY; WETTABILITY; MORPHOLOGY; CONVERSION; MEMBRANES; NONWOVENS;
D O I
10.1002/mame.201700621
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Superhydrophobic surfaces are obtained by a sustainable approach by electrospinning of water-based acrylate dispersion followed by mild silanization and removal of template polymer. The resulting nonwovens show very high superhydrophobicity and very low roll angle. In contrast to many other approaches, pores provide the required morphology to achieve superhydrophobicity. This new material provides a new approach to electrospun nonwoven coatings which can be of interest for textile applications.
引用
收藏
页数:4
相关论文
共 50 条
[31]   Stabilized superhydrophobic composite membranes prepared by electrospinning for oil-water separation [J].
Wang, Xiaohui ;
Li, Xinmei .
POLYMERS FOR ADVANCED TECHNOLOGIES, 2024, 35 (03)
[32]   Adhesion behaviors of water droplets on bioinspired superhydrophobic surfaces [J].
Xu, Peng ;
Zhang, Yurong ;
Li, Lijun ;
Lin, Zhen ;
Zhu, Bo ;
Chen, Wenhui ;
Li, Gang ;
Liu, Hongtao ;
Xiao, Kangjian ;
Xiong, Yunhe ;
Yang, Sixing ;
Lei, Yifeng ;
Xue, Longjian .
BIOINSPIRATION & BIOMIMETICS, 2022, 17 (04)
[33]   Tunable Adhesion on Superhydrophobic Copper Surfaces Using a Facile Controllable Dewetting Approach [J].
Tang, Zhongxue ;
He, Meijin ;
Xu, Bojie ;
Lu, Cong ;
Meng, Lili ;
Liu, Huan .
ADVANCED MATERIALS INTERFACES, 2020, 7 (08)
[34]   Hierarchical Superhydrophobic Surfaces Resist Water Droplet Impact [J].
Varanasi, Kripa K. ;
Deng, Tao ;
Hsu, Ming ;
Bhate, Nitin .
NANOTECH CONFERENCE & EXPO 2009, VOL 3, TECHNICAL PROCEEDINGS: NANOTECHNOLOGY 2009: BIOFUELS, RENEWABLE ENERGY, COATINGS FLUIDICS AND COMPACT MODELING, 2009, :184-+
[35]   Wood-based microhaired superhydrophobic and underwater superoleophobic surfaces for oil/water separation [J].
Kavalenka, M. N. ;
Hopf, A. ;
Schneider, M. ;
Worgull, M. ;
Hoelscher, H. .
RSC ADVANCES, 2014, 4 (59) :31079-31083
[36]   Superhydrophobic Natural and Artificial Surfaces-A Structural Approach [J].
Avramescu, Roxana-Elena ;
Ghica, Mihaela Violeta ;
Dinu-Pirvu, Cristina ;
Prisada, Razvan ;
Popa, Lacramioara .
MATERIALS, 2018, 11 (05)
[37]   Novel approach to fabricate polycarbonate antibacterial superhydrophobic surfaces [J].
Sabry, Raad S. ;
Al-mosawi, Muntazer I. .
JOURNAL OF ADHESION SCIENCE AND TECHNOLOGY, 2017, 31 (22) :2424-2434
[38]   A simple approach to fabricate sticky superhydrophobic polystyrene surfaces [J].
Ji, Haiyan ;
Yang, Jin ;
Wu, Zhenya ;
Hu, Jie ;
Song, Haojie ;
Li, Longji ;
Chen, Gang .
JOURNAL OF ADHESION SCIENCE AND TECHNOLOGY, 2013, 27 (21) :2296-2303
[39]   Preparation of Superhydrophobic Silicon-Based Net-like Hollow Nanostructure Using Electrospinning [J].
Liang, Jui-Wen ;
Wang, Wen-Yu ;
Chung, Cho-Liang .
2018 INTERNATIONAL CONFERENCE ON ELECTRONICS PACKAGING AND IMAPS ALL ASIA CONFERENCE (ICEP-IAAC), 2018, :526-529
[40]   Facile Fabrication of Superhydrophobic Copper-Foam and Electrospinning Polystyrene Fiber for Combinational Oil-Water Separation [J].
Zhang, Yu-Ping ;
Yang, Jing-Hua ;
Li, Ling-Li ;
Cui, Cheng-Xing ;
Li, Ying ;
Liu, Shan-Qin ;
Zhou, Xiao-Mao ;
Qu, Ling-Bo .
POLYMERS, 2019, 11 (01)
12345