Nature–Inspired self–cleaning surfaces : Mechanisms, modelling, and manufacturing
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A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä
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en
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18
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Chemical Engineering Research and Design, Volume 155, pp. 48-65
Abstract
Nature-inspired self-cleaning surfaces have attracted considerable attention from both fundamental research and practical applications. This review adopts a chemical-engineering point of view and focuses on mechanisms, modelling, and manufacturing (M3) of nature-inspired self-cleaning surfaces. We will introduce six nature-inspired self-cleaning mechanisms: The Lotus-effect, superhydrophobic-induced droplet jumping, superhydrophobic-induced unidirectional movement of water droplet, underwater-superoleophobic-based self-cleaning, slippery-based self-cleaning, and dry self-cleaning. These mechanisms of nature self-cleaning examples are popular and well-known as well as have been widely applied or exhibited potential applications in our daily life and industrial productions. The mathematical and numerical modelling of the identified self-cleaning mechanisms will be carefully introduced, which will contribute to the rational design and reproducible construction of these functional self-cleaning surfaces. Finally, we will discuss how these materials can be produced, with a focus on scalable manufacturing. We hope this review will strengthen the understanding on nature-inspired self-cleaning surfaces and stimulate interdisciplinary collaboration of material science, biology and engineering.Description
| openaire: EC/H2020/725513/EU//SuperRepel
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Yu, C, Sasic, S, Liu, K, Salameh, S, Ras, R H A & van Ommen, J R 2020, 'Nature–Inspired self–cleaning surfaces : Mechanisms, modelling, and manufacturing', Chemical Engineering Research and Design, vol. 155, pp. 48-65. https://doi.org/10.1016/j.cherd.2019.11.038