Ultra-durable superhydrophobic cellular coatings

Developing versatile, scalable, and durable coatings that resist the accretion of matters (liquid, vapor, and solid phases) in various operating environments is important to industrial applications, yet has proven challenging. Here, we report a cellular coating that imparts liquid-repellence, vapor-...

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Veröffentlicht in:Nature communications 2023-09, Vol.14 (1), p.5953-5953, Article 5953
Hauptverfasser: Gu, Wancheng, Li, Wanbo, Zhang, Yu, Xia, Yage, Wang, Qiaoling, Wang, Wei, Liu, Ping, Yu, Xinquan, He, Hui, Liang, Caihua, Ban, Youxue, Mi, Changwen, Yang, Sha, Liu, Wei, Cui, Miaomiao, Deng, Xu, Wang, Zuankai, Zhang, Youfa
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Sprache:eng
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Zusammenfassung:Developing versatile, scalable, and durable coatings that resist the accretion of matters (liquid, vapor, and solid phases) in various operating environments is important to industrial applications, yet has proven challenging. Here, we report a cellular coating that imparts liquid-repellence, vapor-imperviousness, and solid-shedding capabilities without the need for complicated structures and fabrication processes. The key lies in designing basic cells consisting of rigid microshells and releasable nanoseeds, which together serve as a rigid shield and a bridge that chemically bonds with matrix and substrate. The durability and strong resistance to accretion of different matters of our cellular coating are evidenced by strong anti-abrasion, enhanced anti-corrosion against saltwater over 1000 h, and maintaining dry in complicated phase change conditions. The cells can be impregnated into diverse matrixes for facile mass production through scalable spraying. Our strategy provides a generic design blueprint for engineering ultra-durable coatings for a wide range of applications. The design and scalable fabrication of durable superhydrophobic coatings that prevent accretion of matter is challenging. Here the authors developed a generic cellular design for ultra-durable coatings that provides liquid-repellence, vapor imperviousness, and solid-shedding capabilities.
ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-023-41675-y