Journal ArticleDOI
Stainless steel corrosion via direct iron-to-microbe electron transfer by Geobacter species.
Hai-Yan Tang,Chuntian Yang,Toshiyuki Ueki,Conor C. Pittman,Dake Xu,Trevor L. Woodard,Dawn E. Holmes,Tingyue Gu,Fuhui Wang,Derek R. Lovley,Derek R. Lovley +10 more
TLDR
In this article, the mechanism for microbial corrosion of stainless steel, the metal of choice for many actual applications, can be significantly different from that for Fe(0), although H2 is often an intermediary electron carrier between the metal and microbes during Fe( 0) corrosion, making this corrosion mechanism unlikely.Abstract:
Microbial corrosion of iron-based materials is a substantial economic problem. A mechanistic understanding is required to develop mitigation strategies, but previous mechanistic studies have been limited to investigations with relatively pure Fe(0), which is not a common structural material. We report here that the mechanism for microbial corrosion of stainless steel, the metal of choice for many actual applications, can be significantly different from that for Fe(0). Although H2 is often an intermediary electron carrier between the metal and microbes during Fe(0) corrosion, we found that H2 is not abiotically produced from stainless steel, making this corrosion mechanism unlikely. Geobacter sulfurreducens and Geobacter metallireducens, electrotrophs that are known to directly accept electrons from other microbes or electrodes, extracted electrons from stainless steel via direct iron-to-microbe electron transfer. Genetic modification to prevent H2 consumption did not negatively impact on stainless steel corrosion. Corrosion was inhibited when genes for outer-surface cytochromes that are key electrical contacts were deleted. These results indicate that a common model of microbial Fe(0) corrosion by hydrogenase-positive microbes, in which H2 serves as an intermediary electron carrier between the metal surface and the microbe, may not apply to the microbial corrosion of stainless steel. However, direct iron-to-microbe electron transfer is a feasible route for stainless steel corrosion.read more
Citations
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Electromicrobiology: the ecophysiology of phylogenetically diverse electroactive microorganisms
TL;DR: A growing body of research emphasizes their broad phylogenetic diversity and shows that these microorganisms have key roles in multiple biogeochemical cycles, as well as the microbiome of the gut, anaerobic waste digesters and metal corrosion as mentioned in this paper.
Journal ArticleDOI
Extracellular electron transfer in microbial biocorrosion
TL;DR: EET in energy metabolism in microbiology and EET for MIC are intertwined and well-established corrosion research tools, especially electrochemical methods that are highly sensitive, are useful for microbiologists to study EET.
Journal ArticleDOI
Microbiologically influenced corrosion inhibition mechanisms in corrosion protection: A review.
Yuntian Lou,Weiwei Chang,Tianyu Cui,Jinke Wang,Hongchang Qian,Lingwei Ma,Xiangping Hao,Dawei Zhang +7 more
TL;DR: A comprehensive overview of the mechanisms of MICI under different conditions and their advantages and disadvantages for potential applications in corrosion protection can be found in this article, where the authors provide a comprehensive review of the MICI mechanisms and their potential applications.
Journal ArticleDOI
Direct microbial electron uptake as a mechanism for stainless steel corrosion in aerobic environments.
Enze Zhou,Feng Li,Da Long Zhang,Dake Xu,Zhong Li,Ru Jia,Yuting Jin,Hao Song,Huabing Li,Qiang Wang,Jian-Jun Wang,Xiaogang Li,Tingyue Gu,A.M. Homborg,Johannes M. C. Mol,Jessica A. Smith,Fu Cun Wang,Derek R. Lovley +17 more
TL;DR: In this paper , the authors show that Shewanella oneidensis MR-1 can directly consume electrons from iron-containing metals and illustrate how direct metal-to-microbe electron transfer can be an important route for corrosion, even in aerobic environments.
Journal ArticleDOI
Fabricating antibacterial CoCrCuFeNi high-entropy alloy via selective laser melting and in-situ alloying
TL;DR: A quasi-equiatomic CoCrFeCuNi high-entropy alloy (HEA) with a broad-spectrum antibacterial ability and good mechanical properties has been fabricated by selective laser melting (SLM) and in-situ alloying of a blend of pre-alloyed CoCr FeNi powder and Cu elemental powder as mentioned in this paper .
References
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Journal ArticleDOI
Novel mode of microbial energy metabolism: organic carbon oxidation coupled to dissimilatory reduction of iron or manganese.
TL;DR: This is the first demonstration that microorganisms can completely oxidize organic compounds with Fe(III) or Mn(IV) as the sole electron acceptor and that oxidation of organic matter coupled to dissimilatory Fe( III), Mn( IV), or Mn (IV) reduction can yield energy for microbial growth.
Journal ArticleDOI
A new model for electron flow during anaerobic digestion: direct interspecies electron transfer to Methanosaeta for the reduction of carbon dioxide to methane
Amelia-Elena Rotaru,Pravin Malla Shrestha,Fanghua Liu,Minita Shrestha,Devesh Shrestha,Mallory Embree,Karsten Zengler,Colin Wardman,Kelly P. Nevin,Derek R. Lovley +9 more
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Anaerobic production of magnetite by a dissimilatory iron-reducing microorganism
TL;DR: The GS-15 organism as mentioned in this paper is not magnetotactic, but reduces amorphic ferric oxide to extracellular magnetite during the reduction of ferric iron as the terminal electron acceptor for organic matter oxidation.
Journal ArticleDOI
Geobacter metallireducens gen. nov. sp. nov., a microorganism capable of coupling the complete oxidation of organic compounds to the reduction of iron and other metals.
Derek R. Lovley,Stephen J. Giovannoni,David C. White,J. E. Champine,Elizabeth J. P. Phillips,Yuri A. Gorby,Steve Goodwin +6 more
TL;DR: Profiles of the phospholipid ester-linked fatty acids indicated that both the anaerobic desaturase and the branched pathways for fatty acid biosynthesis were operative, and the 16S rRNA sequence indicated that this organism belongs in the delta proteobacteria.
Journal ArticleDOI
Validation of corrosion rates measured by the Tafel extrapolation method
TL;DR: In this article, the validity and limitations of the Tafel extrapolation method for the determination of corrosion rates for activation-controlled corrosion processes are compared with corrosion rates obtained by an independent chemical (i.e., non-electrochemical) method for iron in hydrochloric acid, iron in 3.5% NaCl, and for titanium in boiling 1 m sulfuric acid.