A rapid one-step process for fabrication of biomimetic superhydrophobic surfaces by pulse electrodeposition.

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dc.contributor.author Jiang, S.
dc.contributor.author Guo, Z.
dc.contributor.author Liu, G.
dc.contributor.author Gyimah, G. K.
dc.contributor.author Li, X.
dc.contributor.author Dong, H
dc.date.accessioned 2023-01-19T14:34:40Z
dc.date.available 2023-01-19T14:34:40Z
dc.date.issued 2017
dc.identifier.other 10.3390/ma10111229
dc.identifier.uri https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5706176/
dc.identifier.uri http://atuspace.atu.edu.gh:8080/handle/123456789/2518
dc.description.abstract Inspired by some typical plants such as lotus leaves, superhydrophobic surfaces are commonly prepared by a combination of low surface energy materials and hierarchical micro/nano structures. In this work, superhydrophobic surfaces on copper substrates were prepared by a rapid, facile one-step pulse electrodepositing process, with different duty ratios in an electrolyte containing lanthanum chloride (LaCl3·6H2O), myristic acid (CH3(CH2)12COOH), and ethanol. The equivalent electrolytic time was only 10 min. The surface morphology, chemical composition and superhydrophobic property of the pulse electrodeposited surfaces were fully investigated with SEM, EDX, XRD, contact angle meter and time-lapse photographs of water droplets bouncing method. The results show that the as-prepared surfaces have micro/nano dual scale structures mainly consisting of La[CH3(CH2)12COO]3 crystals. The maximum water contact angle (WCA) is about 160.9°, and the corresponding sliding angle is about 5°. This method is time-saving and can be easily extended to other conductive materials, having a great potential for future applications. en_US
dc.language.iso en_US en_US
dc.publisher Materials en_US
dc.relation.ispartofseries vol;10
dc.subject Biomimetic en_US
dc.subject Superhydrophobic en_US
dc.subject Contact angle en_US
dc.subject Pulse electrodeposition en_US
dc.subject Duty ratio en_US
dc.title A rapid one-step process for fabrication of biomimetic superhydrophobic surfaces by pulse electrodeposition. en_US
dc.type Article en_US


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