Peanut Leaf Inspired Multifunctional Surfaces
Nature has long served as a source of inspiration for scientists and engineers to design and construct multifunctional artificial materials. The lotus and the peanut are two typical plants living in the aquatic and the arid (or semiarid) habitats, respectively, which have evolved different optimized...
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Veröffentlicht in: | Small (Weinheim an der Bergstrasse, Germany) Germany), 2014-01, Vol.10 (2), p.294-299 |
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Sprache: | eng |
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Zusammenfassung: | Nature has long served as a source of inspiration for scientists and engineers to design and construct multifunctional artificial materials. The lotus and the peanut are two typical plants living in the aquatic and the arid (or semiarid) habitats, respectively, which have evolved different optimized solutions to survive. For the lotus leaf, an air layer is formed between its surface and water, exhibiting a discontinuous three‐phase contact line, which resulted in the low adhesive superhydrophobic self‐cleaning effect to avoid the leaf decomposition. In contrast to the lotus leaf, the peanut leaf shows high‐adhesive superhydrophobicity, arising from the formation of the quasi‐continuous and discontinuous three‐phase contact line at the microscale and nanoscale, respectively, which provides a new avenue for the fabrication of high adhesive superhydrophobic materials. Further, this high adhesive and superhydrophobic peanut leaf is proved to be efficient in fog capture. Inspired by the peanut leaf, multifunctional surfaces with structural similarity to the natural peanut leaf are prepared, exhibiting simultaneous superhydrophobicity and high adhesion towards water.
The lotus and the peanut are two typical biomaterials living in aquatic and arid (or semiarid) habitats, respectively, which have evolved different optimized solutions to survive. The peanut leaf shows high‐adhesive superhydrophobicity, owing to the formation of quasi‐continuous and discontinuous contact lines at the micro‐ and nanoscale , respectively. Inspired by the peanut leaf, multifunctional surfaces with high adhesive superhydrophobicity are prepared. |
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ISSN: | 1613-6810 1613-6829 |
DOI: | 10.1002/smll.201301029 |