Type of paper:Â | Essay |
Categories:Â | Healthcare |
Pages: | 2 |
Wordcount: | 408 words |
The research article, “The Multifaceted Mechano-Bactericidal Mechanism of nanostructured Surfaces,” illustrates that the mechano-bactericidal action of nanostructured surfaces has become a key aspect that researchers deployed when developing a new approach of antibacterial surfaces (Ivanova et al., 2020). Normally, the process is highly deployed in the production of antimicrobial resistance products, which are crucial in the prevention of diseases (Ivanova et al., 2020). Currently, the production of bacterial resistance has become a key aspect that the healthcare system relies on in controlling diseases (Ivanova et al., 2020). Due to implant failure that occurs when applying microbial colonization, researchers have diverted their attention to the development of antibacterial surfaces (Ivanova et al., 2020). Normally, the production of these antibacterial surfaces aims at providing resistance to bacteria by preventing any cells that come into commerce.
The machano bactericidal activity illustrates the impact of an upsurge of nanopillar height on nanostructure tempted microbial cell death. In this case, the research article proposes that the approach lysis of microbial cells may be impacted by the extent of pliability and collection of extremely ordered silicon nanopillar arrays (Ivanova et al., 2020). As a way of determining the activity, the research article conducted an experiment using a herein, which is a silicon nanopillar array, which was contrived by UV immersion lithography (Ivanova et al., 2020). The fabrication approach was developed through the application of chemical functionalization of the surface using antibiotics, heavy metals, and other mineral elements. The research article found that at heights of 360 nm, increased nanopillar pliability impacts the start of structure distortion in reaction to microbial bonds to the surface (Ivanova et al., 2020). The theoretical evaluation of pillar pliability demonstrated that deflection, deformation force, and mechanical energies are more important for substrates possessing malleable pillars (Ivanova et al., 2020). The increased preservation and release of mechanical energies may be deployed in the illustration for the enhancement of bactericidal activity of the nanopillar groups toward the microbial cells contacting the region (Ivanova et al., 2020). Additionally, the research article finds an increase in nanopillar height (420 nm) and the forces partly remunerated by irrevocable interpillar adhesion, which minimizes their microbial impact (Ivanova et al., 2020).
Reference
Ivanova, E.P., Linklater, D.P., Werner, M., Baulin, V.A., Xu, X., Vrancken, N., Rubanov, S., Hanssen, E., Wandiyanto, J., Truong, V.K. and Elbourne, A., 2020. The multi-faceted mechano-bactericidal mechanism of nanostructured surfaces. Proceedings of the National Academy of Sciences, 117(23), pp.12598-12605. https://www.pnas.org/content/pnas/117/23/12598.full.pdf
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Unveiling Mechano-Bactericidal Marvels for Antibacterial Resistance - Article Review Example. (2023, Dec 13). Retrieved from https://speedypaper.net/essays/unveiling-mechano-bactericidal-marvels-for-antibacterial-resistance-article-review-example
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