Springtail-inspired superomniphobic surface with extreme pressure resistance

Both high static repellency and pressure resistance are critical to achieving a high-performance omniphobic surface. The cuticles of springtails have both of these features, which result from their hierarchical structure composed of primary doubly reentrant nanostructures on secondary microgrooves....

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Veröffentlicht in:Science advances 2018-08, Vol.4 (8), p.eaat4978-eaat4978
Hauptverfasser: Yun, Geun-Tae, Jung, Woo-Bin, Oh, Myung Seok, Jang, Gyu Min, Baek, Jieung, Kim, Nam Il, Im, Sung Gap, Jung, Hee-Tae
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Sprache:eng
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Zusammenfassung:Both high static repellency and pressure resistance are critical to achieving a high-performance omniphobic surface. The cuticles of springtails have both of these features, which result from their hierarchical structure composed of primary doubly reentrant nanostructures on secondary microgrooves. Despite intensive efforts, none of the previous studies that were inspired by the springtail were able to simultaneously achieve both high static repellency and pressure resistance because of a general trade-off between these characteristics. We demonstrate for the first time a springtail-inspired superomniphobic surface displaying both features by fabricating a hierarchical system consisting of serif-T-shaped nanostructures on microscale wrinkles, overcoming previous limitations. Our biomimetic strategy yielded a surface showing high repellency to diverse liquids, from water to ethanol, with a contact angle above 150°. Simultaneously, the surface was able to endure extreme pressure resulting from the impacts of drops of water and of ethylene glycol with >> 200, and of ethanol with ~ 53, which is the highest pressure resistance ever reported. Overall, the omniphobicity of our springtail-inspired fabricated system was found to be superior to that of the natural springtail cuticle itself.
ISSN:2375-2548
2375-2548
DOI:10.1126/sciadv.aat4978