Journal ArticleDOI
Bioinspired superhydrophobic and oil-infused surface: Which is the better choice to prevent marine biofouling?
TLDR
In this paper, a superhydrophobic and oil-infused surface based on Cu(OH)2 matrix with prickly chestnut husk morphology is obtained via successive steps.About:
This article is published in Colloids and Surfaces A: Physicochemical and Engineering Aspects.The article was published on 2018-12-20. It has received 41 citations till now. The article focuses on the topics: Biofouling & Fouling.read more
Citations
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Life and death of liquid-infused surfaces: a review on the choice, analysis and fate of the infused liquid layer.
TL;DR: A review of the current state of the literature relating to the lubricant layer, which looks at the different methods used to infuse lubricant into surfaces and how lubricant depletes from the surface, and how droplets interact with LIS.
Journal ArticleDOI
Bioinspired surfaces with wettability for antifouling application
TL;DR: The wettable surfaces are divided into superhydrophobic surfaces, underwater superoleophobic surfaces and slippery surfaces, respectively, summarizing their development in the field of antifouling, and their research progress in antibacterial, antibiotic flocculation and antiplatelet adhesion is highlighted.
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Bioinspired marine antifouling coatings: Status, prospects, and future
TL;DR: In this article , a review of bio-inspired antifouling strategies is presented, focusing on micro/nanostructured surfaces, natural antifoulants, bioinspired hydrogels, slippery liquid-infused porous surfaces, bio inspired dynamic surfaces, and zwitterionic coatings.
Journal ArticleDOI
Bioinspired marine antifouling coatings: Status, prospects, and future
TL;DR: In this article, a review of bio-inspired antifouling strategies is presented, focusing on micro/nanostructured surfaces, natural antifoulants, bioinspired hydrogels, slippery liquid-infused porous surfaces, bio inspired dynamic surfaces, and zwitterionic coatings.
Journal ArticleDOI
Superhydrophobic coating of silicone/β–MnO2 nanorod composite for marine antifouling
Mohamed S. Selim,Mohamed S. Selim,Hui Yang,Sherif A. El-Safty,Nesreen A. Fatthallah,Mohamed A. Shenashen,Mohamed A. Shenashen,Feng Q. Wang,Yong Huang +8 more
TL;DR: In this article, a series of silicone/β-MnO2 nanorod composite was successfully fabricated for marine fouling release (FR) coatings, which exhibited a single crystal structure, a mean diameter of 20-30nm and a length of 0.5-1μm, and they had a wurtzite structure that preferentially grew in the [100] direction which has the most stable surface, high antimicrobial, and low free energy.
References
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Purity of the sacred lotus, or escape from contamination in biological surfaces
TL;DR: It is shown here for the first time that the interdependence between surface roughness, reduced particle adhesion and water repellency is the keystone in the self-cleaning mechanism of many biological surfaces.
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Bioinspired self-repairing slippery surfaces with pressure-stable omniphobicity
Tak Sing Wong,Sung Hoon Kang,Sindy K. Y. Tang,Elizabeth Smythe,Benjamin Hatton,Alison Grinthal,Joanna Aizenberg +6 more
TL;DR: A strategy to create self-healing, slippery liquid-infused porous surface(s) (SLIPS) with exceptional liquid- and ice-repellency, pressure stability and enhanced optical transparency, applicable to various inexpensive, low-surface-energy structured materials (such as porous Teflon membrane).
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Characterization and Distribution of Water-repellent, Self-cleaning Plant Surfaces
TL;DR: The importance of roughness and water-repellency, respectively, as the basis of an anti-adhesive, self-cleaning surface, in comparison to other functions of microstructures, is discussed.
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X-ray photoelectron studies on some oxides and hydroxides of cobalt, nickel, and copper
N. S. McIntyre,M. G. Cook +1 more
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Liquid-Infused Nanostructured Surfaces with Extreme Anti-Ice and Anti-Frost Performance
Philseok Kim,Tak Sing Wong,Jack Alvarenga,Michael J. Kreder,Wilmer E. Adorno-Martinez,Joanna Aizenberg +5 more
TL;DR: Results indicate that SLIPS is a promising candidate for developing robust anti-icing materials for broad applications, such as refrigeration, aviation, roofs, wires, outdoor signs, railings, and wind turbines.