Materials Today
d
Volume xx, Number xx
d
xxxx xxxx
NEWS
News Insect wings inspire antibacterial coatings The search for coating materials that can kill bacteria has turned to nature: to be precise, the wings of insects such as dragonflies and cicadas. “Plants, insects, and other organisms are able to maintain surfaces effectively free of contamination,” explains Elena P. Ivanova of Swinburne University of Technology in Australia. “Recent research on wings of the cicada, dragonfly, and damselfly has shown that they do not only repel potential contaminants, but can actively kill bacterial cells that seek to colonize the surface.” The protective, waxy coating – or epicuticle – of insect wings is made up of a complex mixture of up to 50 different types of lipid molecule, which form a nanostructured arrangement. The surface features or topography of this thin layer wings can kill bacteria by interacting physically with cells and rupturing the cell wall or membrane. Ivanova, together with colleagues from RMIT University, the Australian Nuclear
Science and Technology Organisation, and Universitat Rovira I Virgili in Spain, found that naturally occurring fatty acids, which are the major constituents of this outer wing coating, can be used to form a useful ‘mechanobactericidal’ coating for artificial surfaces [Ivanova et al., Acta Biomaterialia (2017), doi: https://doi.org/10. 1016/j.actbio.2017.07.004]. The researchers crystallized the two main ingredients of the coating layer – palmitic and stearic acids – on different surfaces via a simple one-step process. The fatty acids are first dissolved in chloroform, and then deposited onto highly ordered, smooth graphite (HOPG) films, before finally evaporating the chloroform. The fatty acids spontaneously arrange into microstructures on the graphite surface: palmitic acid forms sharp ridges, while stearic acid takes on a flatter, more undulating appearance. Although both coated graphite surfaces had a bactericidal effect on Pseudomonas aeruginosa and Staphylococcus
1369-7021/https://doi.org/10.1016/j.mattod.2017.09.009
Please cite this article in press as: (2017), 10.1016/j.mattod.2017.09.009
aureus, which can cause serious complications in patients with existing medical conditions, the effectiveness of palmitic acid was more pronounced. After six hours, over 90% of the two bacterial strains were eliminated by the fatty acid coatings. “The approach we applied in this work is unique by its simplicity,” says Ivanova. “A simple solution of fatty acids applied onto highly ordered material results in the fabrication of an antibacterial surface in just few minutes.” Moreover, both palmitic and stearic acids are already FDA-approved as nontoxic additives for food, cosmetics and pharmaceuticals. “These microcrystalline surfaces could be effectively applied as single-use bactericidal nanocoatings in applications such as wound healing, wound dressing, and on scaffold materials,” Ivanova told Materials Today.
Cordelia Sealy
1