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	Provedor de dados ArchiMer (3) Autor Maignien, Lois (2) Morrison, Hilary G. (2) Thierry, Dominique (2) Trigodet, Florian (2) Abboud, M. (1) Abi Nassif, L. (1) Diler, E. (1) Farah, W. (1) Fauchon, M. (1) Hellio, C. (1) Jebbar, Mohamed (1) Larche, Nicolas (1) Larché, Nicolas (1) Lescop, B. (1) Rioual, S. (1) Thierry, D. (1) Trepos, R (1) Mais... Palavra-chave Ennoblement (3) 16S rRNA gene (2) Electroactive bacteria (2) Microbial ecology (2) Stainless steel (2) Alginate (1) Antimicrobial (1) Biofilm (1) Biopolymer (1) Natural seawater (1) Steel (1) Mais... Tipo do documento Text (3) Ano 2020 (1) 2019 (2) País France (3) Idioma Inglês (3)		Ordenar por:  Relevância Autor Título Ano Registros recuperados: 3 Primeira ... 1 ... Última Electroactive Bacteria Associated With Stainless Steel Ennoblement in Seawater ArchiMer Trigodet, Florian; Larche, Nicolas; Morrison, Hilary G.; Jebbar, Mohamed; Thierry, Dominique; Maignien, Lois. Microorganisms can increase the open-circuit potential of stainless steel immersed in seawater of several hundred millivolts in a phenomenon called ennoblement. It raises the chance of corrosion as the open-circuit potential may go over the pitting corrosion potential. Despite the large impact of the ennoblement, no unifying mechanisms have been described as responsible for the phenomenon. Here we show that the strict electrotroph bacterium "Candidatus Tenderia electrophaga" is detected as an ennoblement biomarker and is only present at temperatures at which we observe ennoblement. This bacterium was previously enriched in biocathode systems. Our results suggest that "Candidatus Tenderia electrophaga," and its previously described extracellular electron... Tipo: Text Palavras-chave: Ennoblement; Electroactive bacteria; Stainless steel; Microbial ecology; 16S rRNA gene. Ano: 2019 URL: https://archimer.ifremer.fr/doc/00482/59371/62144.pdf Influence of dissolved oxygen content on the bacteria‐induced ennoblement of stainless steels in seawater and its consequence on the localized corrosion risk ArchiMer Trigodet, Florian; Larché, Nicolas; Morrison, Hilary G.; Maignien, Lois; Thierry, Dominique. The ennoblement of stainless steel (e.g., the increase of open circuit potential [OCP]) is associated with bacterial colonization. This increases the risk of localized corrosion as the critical pitting/crevice potential can be overcome, especially for lower grade stainless steel. In this study, we assessed the influence of dissolved oxygen content (DOC) on the crevice corrosion of duplex and super duplex stainless steels. In addition, we used DNA amplicon sequencing to identify the bacteria most likely associated with the ennoblement. Above approximately 100 parts per billion (ppb) of dissolved oxygen, the ennoblement of OCP was observed leading to an increased risk of localized corrosion. Below approximately 100 ppb of dissolved oxygen, no ennoblement... Tipo: Text Palavras-chave: 16S rRNA gene; Electroactive bacteria; Ennoblement; Microbial ecology; Natural seawater; Stainless steel. Ano: 2019 URL: https://archimer.ifremer.fr/doc/00588/70026/67934.pdf Reduction of potential ennoblement of stainless steel in natural seawater by an ecofriendly biopolymer ArchiMer Abi Nassif, L.; Rioual, S.; Farah, W.; Hellio, C.; Fauchon, M.; Trepos, R; Abboud, M.; Diler, E.; Thierry, D.; Lescop, B.. The effect of biofilm formation on passive stainless steel in seawater environments is of primary importance since it leads to potential ennoblement of surfaces and subsequently to localized corrosion such as pitting and crevice corrosion. This study aims at developing an ecofriendly alginate biopolymer containing both non-toxic calcium and a limited amount of biocidal zinc ions which inhibits this effect. For this purpose, calcium alginate containing less than 1 % of zinc ions localized in the vicinity of the steel surface in natural and renewed seawater is demonstrated to reduce significantly the ennoblement process of steel. After 1 month of immersion, a mass loss of only 4 % of the active material is observed authorizing thereby long-term protection of... Tipo: Text Palavras-chave: Biopolymer; Steel; Ennoblement; Antimicrobial; Alginate; Biofilm. Ano: 2020 URL: https://archimer.ifremer.fr/doc/00604/71607/73083.pdf Registros recuperados: 3 Primeira ... 1 ... Última

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