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Nano today上 最新关于静电纺丝超疏水综述!
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http://www.sciencedirect.com/sci ... i/S1748013211000934 [ Last edited by renerve on 2011-9-23 at 13:24 ] |
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 材料科学最新前沿热点 | 纳米技术与能源及模拟 | 好书!好读! | Nano&Micro |
| 新能源 | 纳米材料及生物材料前沿资源 | nano physics&chem | 静电纺丝 |
| 科研什么都需要 | 光子纳米生物医学 | Electrospinning and nanomaterials | 超疏减反 |
| 高分子资源收纳箱F | 生物 |
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非常有趣!这样的科研做起来真有意思:)国内人写的综述,顶起! Review Engineering biomimetic superhydrophobic surfaces of electrospun nanomaterials Xianfeng Wanga, b, c, Bin Dinga, b, Corresponding Author Contact Information, E-mail The Corresponding Author, Jianyong Yub, Moran Wangd, e, f, Corresponding Author Contact Information, E-mail The Corresponding Author, E-mail The Corresponding Author [Author vitae] a State Key Laboratory for Modification of Chemical Fibers and Polymer Materials, College of Materials Science and Engineering, Donghua University, Shanghai 201620, China b Nanomaterials Research Center, Modern Textile Institute, Donghua University, Shanghai 200051, China c College of Textiles, Donghua University, Shanghai 201620, China d School of Aerospace, Tsinghua University, Beijing 100084, China e Department of Mechanical Engineering, Johns Hopkins University, Baltimore, MD 21218, USA f Earth and Environmental Sciences Division, Los Alamos National Laboratory, Los Alamos, NM 87545, USA Received 12 July 2011; revised 11 August 2011; Accepted 15 August 2011. Available online 20 September 2011. |
7楼2011-09-24 15:04:32
★★★★★ 五星级,优秀推荐
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Summary Biomimetics provides a model for developments of functional surfaces with special wettability. Recently, manufacturing bio-inspired superhydrophobic surfaces has become an increasingly hot research topic. The electrospinning technique is a versatile and effective method for manufacturing nanomaterials with controllable compositions and structures, and therefore provides an ideal strategy for construction of superhydrophobic surfaces on a large scale. After a brief description of several superhydrophobic surfaces inspired by nature, we highlighted the recent progresses in design and fabrication of these bio-inspired superhydrophobic surfaces via electrospinning technique. The studies on the switchable wettability of nanofibrous surface brought about by external stimuli are also addressed. We conclude with a summary of current and future research efforts and opportunities in the development of electrospun nanomaterials for superhydrophobic applications. |
6楼2011-09-24 14:52:34
8楼2011-09-24 20:54:10
14楼2011-10-06 11:03:10
简单回复
2011-09-27 14:09
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三星好评 
dongjunchen12楼
2011-09-30 15:30
回复
五星好评 顶一下,感谢分享!
yanranbaobao13楼
2011-10-05 08:32
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五星好评 顶一下,感谢分享!