Molecular and Topographical Organization: Influence on Cicada Wing Wettability and Bactericidal Properties

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Abstract: Numerous natural surfaces have micro/nanostructures that result in extraordinary functionality, such as superhydrophobicity, self‐cleaning, antifogging, and antimicrobial properties. One such example is the cicada wing, where differences in nanopillar geometry and composition among species can impact and influence the degree of exhibited properties. To understand the relationships between surface topography and chemical composition with multifunctionality, the wing properties of Neotibicen pruinosus (superhydrophobic) and Magicicada cassinii (hydrophobic) cicadas are investigated at time points after microwave‐assisted extraction of surface molecules to characterize the chemical contribution to nanopillar functionality. Electron microscopy of the wings throughout the extraction process illustrates nanoscale topographical changes, while concomitant changes in hydrophobicity, bacterial fouling, and bactericidal properties are also measured. Extract analysis reveals the major components of the nanostructures to be fatty acids and saturated hydrocarbons ranging from C17 to C44. Effects on the antimicrobial character of a wing surface with respect to the extracted chemicals suggest that the molecular composition of the nanopillars plays both a direct and an indirect role in concert with nanopillar geometry. The data presented not only correlates the nanopillar molecular organization to macroscale functional properties, but it also presents design guidelines to consider during the replication of natural nanostructures onto engineered substrates to induce desired properties.

Location: Deutsche Nationalbibliothek Frankfurt am Main

Extent: Online-Ressource

Language: Englisch

Bibliographic citation: Molecular and Topographical Organization: Influence on Cicada Wing Wettability and Bactericidal Properties ; volume:7 ; number:10 ; year:2020 ; extent:11
Advanced materials interfaces ; 7, Heft 10 (2020) (gesamt 11)

Creator: Román‐Kustas, Jessica
Hoffman, Jacob B.
Reed, Julian H.
Gonsalves, Andrew E.
Oh, Junho
Li, Longnan
Hong, Sungmin
Jo, Kyoo D.
Dana, Catherine E.
Miljkovic, Nenad
Cropek, Donald M.
Alleyne, Marianne

DOI: 10.1002/admi.202000112

URN: urn:nbn:de:101:1-2022053106565278426105

Rights: Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.

Last update: 15.08.2025, 7:24 AM CEST

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Associated

Román‐Kustas, Jessica
Hoffman, Jacob B.
Reed, Julian H.
Gonsalves, Andrew E.
Oh, Junho
Li, Longnan
Hong, Sungmin
Jo, Kyoo D.
Dana, Catherine E.
Miljkovic, Nenad
Cropek, Donald M.
Alleyne, Marianne

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