Efficiency of a Novel Multifunctional Corrosion Inhibitor Against Biofilms Developed on Carbon Steel Tuck, B, Leinecker, N, Watkin, E, Somers, Anthony, Forsyth, Maria and Machuca, LL 2022, Efficiency of a Novel Multifunctional Corrosion Inhibitor Against Biofilms Developed on Carbon Steel, Frontiers in Bioengineering and Biotechnology, vol. 10, pp. 1-11, doi: 10.3389/fbioe.2022.803559. Attached Files Name Description MIMEType Size Downloads Title Efficiency of a Novel Multifunctional Corrosion Inhibitor Against Biofilms Developed on Carbon Steel Author(s) Tuck, B Leinecker, N Watkin, E Somers, Anthony orcid.org/0000-0002-0220-2904 Forsyth, Maria orcid.org/0000-0002-4273-8105 Machuca, LL Journal name Frontiers in Bioengineering and Biotechnology Volume number 10 Article ID ARTN 803559 Start page 1 End page 11 Total pages 11 Publisher Frontiers / Frontiers Media / Frontiers Research Foundation Place of publication Lausanne, Switzerland Publication date 2022-01-21 ISSN 2296-4185 2296-4185 Keyword(s) ACID BACTERIA biocide biofilm biofouling Biotechnology & Applied Microbiology corrosion inhibitor FATE GLUTARALDEHYDE INITIAL ATTACHMENT Life Sciences & Biomedicine microbiologically influenced Multidisciplinary Sciences OIL Science & Technology Science & Technology - Other Topics SENSITIVITY SURFACE WATER Summary In natural environments, populations of microorganisms rapidly colonise surfaces forming biofilms. These sessile communities comprise a variety of species which contribute to biofouling and microbiologically influenced corrosion (MIC), especially on metals. Species heterogeneity in natural systems confers higher tolerance to adverse conditions such as biocide treatment compared with single species laboratory simulations. Effective chemical treatments to combat recalcitrant biofilms are often dangerous to apply; both to operators and the environment, and face international embargoes. Today, there is a drive to exchange current toxic and environmentally hazardous biocides with less harmful compounds. One effective method of achieving this goal is to generate multi-functional compounds capable of tackling corrosion and biofilm formation simultaneously, thus reducing the number of compounds in dosing procedures. In a previous study, a novel corrosion inhibitor demonstrated biocidal effects against three marine isolates during the early stages of biofilm formation. The compound; CTA-4OHcinn, holds great promise as a multi-functional inhibitor, however its effect on complex, multi-species biofilms remains unknown. Here we evaluate CTA-4OHcinn biocidal capacity against multi-species biofilms developed from oilfield samples. Mature biofilms were developed and treated with 10 mM CTA-4OHcinn for 4 h. The effects of the compound were assessed using mean probable number (MPN), adenosine triphosphate (ATP) quantification, scanning electron microscopy (SEM) and confocal laser scanning microscopy (CLSM). Results demonstrate that CTA-4OHcinn significantly reduces the viability of mature biofilms, supporting previous demonstrations on the secondary function of CTA-4OHcinn as a biocide. CLSM results further indicate that CTA-4OHcinn targets the cell membrane resulting in lysis. This finding complements the established corrosion inhibition function of CTA-4OHcinn, indicating the compound is a true multi-functional organic corrosion inhibitor. Language eng DOI 10.3389/fbioe.2022.803559 Indigenous content off Field of Research 091207 Metals and Alloy Materials 091205 Functional Materials 060501 Bacteriology 0699 Other Biological Sciences 0903 Biomedical Engineering 1004 Medical Biotechnology Socio Economic Objective 870302 Metals (e.g. Composites HERDC Research category C1 Refereed article in a scholarly journal Grant ID ARC DP180101465 Free to Read? Yes Persistent URL http://hdl.handle.net/10536/DRO/DU:30162886 Document type: Journal Article Collections: Institute for Frontier Materials Open Access Collection GTP Research Related Links Link Description Link to full-text (open access)   Connect to Elements publication management system Go to link with your DU access privileges     Unless expressly stated otherwise, the copyright for items in DRO is owned by the author, with all rights reserved. Every reasonable effort has been made to ensure that permission has been obtained for items included in DRO. If you believe that your rights have been infringed by this repository, please contact drosupport@deakin.edu.au. Versions Version Filter Type Fri, 18 Feb 2022, 07:15:09 EST Fri, 18 Feb 2022, 16:00:26 EST Thu, 05 May 2022, 11:13:37 EST Fri, 06 May 2022, 06:03:05 EST Fri, 10 Jun 2022, 14:17:10 EST Fri, 10 Jun 2022, 14:19:15 EST Fri, 10 Jun 2022, 14:25:24 EST Fri, 10 Jun 2022, 14:49:28 EST Filtered Full Citation counts:   Cited 1 times in TR Web of Science Cited 1 times in Scopus Search Google Scholar Access Statistics: 27 Abstract Views, 1 File Downloads  -  Detailed Statistics Created: Thu, 05 May 2022, 11:13:37 EST