Journal article
Significant Enhancement of Antimicrobial Activity in Oxygen-Deficient Zinc Oxide Nanowires
A Elbourne, S Cheeseman, P Wainer, J Kim, AE Medvedev, KJ Boyce, CF McConville, J Van Embden, RJ Crawford, J Chapman, VK Truong, E Della Gaspera
ACS Applied Bio Materials | AMER CHEMICAL SOC | Published : 2020
Abstract
The fabrication of antimicrobial surfaces that exhibit enhanced activity toward a large variety of microbial species is one of the major challenges of our time. In fact, the negative effects associated with both bacterial and fungal infections are enormous, especially considering that many microbial species are developing resistance to known antibiotics. In this work, we show how a combination of a specific surface morphology and surface chemistry can create a surface that exhibits nearly 100% antimicrobial activity toward both Gram-negative and Gram-positive bacteria and fungal cells. Arrays of vertically aligned, oxygen-deficient zinc oxide (ZnO) nanowires grown on a substrate exhibit enha..
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Awarded by Jack Brockhoff Foundation
Funding Acknowledgements
The Australian Research Council (ARC) is greatly acknowledged for supporting this work through the following grants: DE170100164 (E.D.G.), DP190101864 (E.D.G.). The Cypher ES AFM instrument was funded in part by grant LE170100096 from the ARC. The authors acknowledge the facilities and the technical assistance of the RMIT University's Microscopy and Microanalysis Facility (RMMF) and the MicroNano Research Facility (MNRF). A.E. is supported by the Jack Brockhoff Foundation OBF Grant number 4655-2019).