在钛基底上轻松制备具有坚固微/纳米级分级结构的超疏水表面。

Facile Fabrication of a Superhydrophobic Surface with Robust Micro-/Nanoscale Hierarchical Structures on Titanium Substrate.

作者信息

Dong Shuliang, Wang Zhenlong, An Libao, Li Yaogang, Wang Baozhong, Ji Hongchao, Wang Han

机构信息

College of Mechanical Engineering, North China University of Science and Technology, No. 21 Bohai Road, Caofeidian Xincheng, Tangshan 063210, China.

School of Mechatronics Engineering, Harbin Institute of Technology, Harbin 150001, China.

出版信息

Nanomaterials (Basel). 2020 Jul 31;10(8):1509. doi: 10.3390/nano10081509.

DOI:10.3390/nano10081509

PMID:32752033

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7466599/

Abstract

A superhydrophobic surface with robust structures on a metallic surface could improve its application in various harsh conditions. Herein, we developed a new strategy to fabricate robust micro-/nanoscale hierarchical structures with electrical discharge machining and electrochemical etching on a titanium substrate. After modification by fluorinated silane, the static water contact angle and slide angle of the surface could reach 162 ± 2° and 4 ± 1°, respectively. The superhydrophobic surfaces showed good corrosion resistance and mechanical stability after scratching with sandpapers. In addition, the superhydrophobic surfaces had good self-cleaning performance even in an acidic environment as well as the potential to be used as guiding tracks in droplet microfluidics and lab-on-a-chip systems. These results are expected to be helpful in designing the surface of liquid float gyroscope parts.

摘要

在金属表面具有坚固结构的超疏水表面可以改善其在各种恶劣条件下的应用。在此，我们开发了一种新策略，通过放电加工和电化学蚀刻在钛基底上制造坚固的微/纳米级分层结构。经氟化硅烷改性后，表面的静态水接触角和滑动角分别可达162±2°和4±1°。超疏水表面在被砂纸刮擦后表现出良好的耐腐蚀性和机械稳定性。此外，超疏水表面即使在酸性环境中也具有良好的自清洁性能，并且有潜力用作微滴微流控和芯片实验室系统中的导轨。这些结果有望有助于设计液体浮子陀螺仪部件的表面。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dc27/7466599/de0d9f4b6f34/nanomaterials-10-01509-g001.jpg

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Nat Nanotechnol. 2017 Sep 6;12(9):834-835. doi: 10.1038/nnano.2017.187.

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在钛基底上轻松制备具有坚固微/纳米级分级结构的超疏水表面。

Facile Fabrication of a Superhydrophobic Surface with Robust Micro-/Nanoscale Hierarchical Structures on Titanium Substrate.

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