Journal
CHEMICAL ENGINEERING JOURNAL
Volume 404, Issue -, Pages -Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.cej.2020.126456
Keywords
Superhydrophobic coating; Self-assembly; Transparency; Dynamic impact
Categories
Funding
- National Natural Science Foundation of China, China [51803055]
- Hunan Provincial Key Research and Development Program, China [2018GK2062]
- Research Project of NUDT, China [ZK20-08]
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The newly developed transparent superhydrophobic surface exhibits high dynamic impact resistance, with a transmittance of 94.2% and resistance to impacts from sand and water jets, making it suitable for outdoor applications in heavy rain.
Transparent superhydrophobic surfaces are employed in a wide range of outdoor applications, such as wind-shields and house windows. However, micro-nano hierarchical superhydrophobic structures are vulnerable to impacts from sand particles and rain drops. The low impact resistance limits the practical applications of superhydrophobic surfaces. Herein, we develop a novel eco-friendly self-assembly process in aqueous medium to construct transparent superhydrophobic surfaces with high dynamic impact resistance. The transmittance of the prepared surfaces was similar to 94.2% compared with the transmittance of the pure glass substrate. The surface is resistant to the impact of 600 g sand and an similar to 8.6 m/s of water jet applied for 6 min (this is nearly 1500 times higher than the annual precipitation in the tropics), which makes the superhydrophobic surface sustainable in heavy rain. Furthermore, the coating was resistant to highly corrosive media (sulfuric acid) in the case of acid rain and UV illumination. A combination of these properties is attractive for transparent applications with self-cleaning properties, waterproofing and environmental stability.
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