Litcius/Paper detail

A metallic anti-biofouling surface with a hierarchical topography containing nanostructures on curved micro-riblets

Taekyung Kim, Sunmok Kwon, Jeehyeon Lee, Joon Sang Lee, Shinill Kang

2022Microsystems & Nanoengineering32 citationsDOIOpen Access PDF

Abstract

Metallic surface finishes have been used in the anti-biofouling, but it is very difficult to produce surfaces with hierarchically ordered structures. In the present study, anti-biofouling metallic surfaces with nanostructures superimposed on curved micro-riblets were produced via top-down fabrication. According to the attachment theory, these surfaces feature few attachment points for organisms, the nanostructures prevent the attachment of bacteria and algal zoospores, while the micro-riblets prohibit the settlement of macrofoulers. Anodic oxidation was performed to induce superhydrophilicity. It forms a hydration layer on the surface, which physically blocks foulant adsorption along with the anti-biofouling topography. We characterized the surfaces via scanning electron and atomic force microscopy, contact-angle measurement, and wear-resistance testing. The contact angle of the hierarchical structures was less than 1°. Laboratory settlement assays verified that bacterial attachment was dramatically reduced by the nanostructures and/or the hydration layer, attributable to superhydrophilicity. The micro-riblets prohibited the settlement of macrofoulers. Over 77 days of static immersion in the sea during summer, the metallic surface showed significantly less biofouling compared to a surface painted with an anticorrosive coating.

Topics & Concepts

NanostructureMaterials scienceMetalAdsorptionBiofoulingNanotechnologyWettingSurface (topology)Layer (electronics)Scanning electron microscopeNanolithographyContact angleTitaniumComposite materialChemical engineeringSurface structureAtomic force microscopyNano-Nanoscopic scaleChemical physicsFlat surfaceAnodeSettlement (finance)Surface finishOptoelectronicsMarine Biology and Environmental ChemistryPolymer Surface Interaction StudiesMarine Ecology and Invasive Species
A metallic anti-biofouling surface with a hierarchical topography containing nanostructures on curved micro-riblets | Litcius