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Why a Lotus-like Superhydrophobic Surface Is Self-Cleaning? An Explanation from Surface Force Measurements and Analysis
关键字:Superhydrophobic Surface, Lotus effect, force
The unique self-cleaning
feature of lotus-like superhydrophobic
(SH) surface attracted world-wide interests in recent years. However, the
mechanism of the self-cleaning phenomena remains unclear. Here, we attempt to provide
a comprehensive understanding of why self-cleaning of the particles with a
broad range of size can be realized on the lotus-like SH surfaces. After
measurements and analysis of...
http://www.polymer.cn/research/sy_info19134 |
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Why a Lotus-like Superhydrophobic Surface Is Self-Cleaning? An Explanation from Surface Force Measurements and Analysis
关键字:Superhydrophobic Surface, Lotus effect, force
The unique self-cleaning
feature of lotus-like superhydrophobic
(SH) surface attracted world-wide interests in recent years. However, the
mechanism of the self-cleaning phenomena remains unclear. Here, we attempt to provide
a comprehensive understanding of why self-cleaning of the particles with a
broad range of size can be realized on the lotus-like SH surfaces. After
measurements and analysis of...
http://www.polymer.cn/research/sy_info19134 |
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马尔文仪器材料分析解决方案为Domino打造完美的高性能喷印油墨
2014年12月, 中国上海——英国马尔文仪器公司的分析仪器成功应用于世界领先的印刷技术公司--英国多米诺印刷科技公司(Domino Printing Sciences plc),用于喷印油墨的配方研发。该分析解决方案包括马尔文Viscotek TDAmax多检测器凝胶渗透色谱、Zetasizer Nano纳米粒度电位仪系列以及m-VROCi微流体流变仪,为科学家们提供了开发高性能喷印油墨所需的分子量及分子量分布、分子结构、粒度和流变特性等信息,帮助他们开发...
http://www.polymer.cn/trading/news_detail_9637 |
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[Chem. Commun.] A lotus-inspired janus hybrid film enabled by interfacial self-assembly and in situ asymmetric modification
A lotus leaf inspired Janus hybrid film was exquisitely fabricated through a self-assembly process at the air/water interface with subsequent in situ asymmetric modification at the oil/water interface. The interfacial asymmetric decoration strategy thus provides a novel pathway for achieving a 2D Janus hybrid film with asymmetric wettability and functionality.
http://www.polymer.cn//ss/chentaogroup/publicationsshow_13394.html |
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Langmuir, 30, 13615-13621: Why a Lotus-like Superhydrophobic Surface Is Self-Cleaning? An Explanation from Surface Force Measurements and Analysis
The unique self-cleaning
feature of lotus-like superhydrophobic
(SH) surface attracted world-wide interests in recent years. However, the
mechanism of the self-cleaning phenomena remains unclear. Here, we attempt to provide
a comprehensive understanding of why self-cleaning of the particles with a
broad range of size can be realized on the lotus-like SH surfaces. After
measurements and analysis of...
http://www.polymer.cn//ss/cuishuxun/publicationsshow_8217.html |
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Janus interface materials: superhydrophobic air/solid interface and superoleophobic water/solid interface inspired by a lotus leaf
Q. Cheng, M. Li, Y. Zheng, et al., Soft Matter 2011, 7, 5948.
http://www.polymer.cn//ss/cheng/publicationsshow_4375.html |
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Delphion:IBM知识产权网IPN改为收费服务(部分免费)
Delphions Intellectual Property Network is the premier site for the searching, viewing, and analysis of patent data collections worldwide.
http://www.polymer.cn/resource/10370resource.html |
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(Appl. Phys. Lett.) In situ investigation on dynamic suspending of microdroplet on lotus leaf and gradient of wettable micro- and nanostructure from water condensation.
Dynamic suspending behavior of microdroplet on fresh lotus leaf is in situ investigated at microand nanolevels, by water condensation via environmental scanning electronic microscopy. The observation and analysis reveal that a gradient of wettable micro- and nanostructure is formed along the exterior surface of papilla including nanohairs during water condensation. This gradient introduces a tende...
http://www.polymer.cn//ss/zhengyongmei/publicationsshow_4157.html |
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Angew. Chem. Int. Ed. "A Lotus-Leaf-like Superhydrophobic Surface: A Porous Microsphere/Nanofiber Composite Film Prepared by Electrohydrodynamics" 2004, 43, 4338. (Newsworthy)
A hierarchical micro/nanostructure and low surface energy result in superhydrophobicity in a polystyrene film prepared by the electrohydrodynamics method. The composite film consists of porous microspheres, which contribute to superhydrophobicity by increasing the surface roughness, and interwoven nanofibers, which reinforce the film. A water droplet resides on the film with a contact angle of abo...
http://www.polymer.cn//ss/zhaoyong/publicationsshow_1379.html |
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