Extracellular electron transfer mechanisms between microorganisms and minerals

Nature Reviews Microbiology, Journal Year: 2016, Volume and Issue: 14(10), P. 651 - 662

Published: Aug. 30, 2016

Language: Английский

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A flavin-based extracellular electron transfer mechanism in diverse Gram-positive bacteria

Nature, Journal Year: 2018, Volume and Issue: 562(7725), P. 140 - 144

Published: Sept. 11, 2018

Language: Английский

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Humic substances as fully regenerable electron acceptors in recurrently anoxic environments

Nature Geoscience, Journal Year: 2014, Volume and Issue: 7(3), P. 195 - 200

Published: Feb. 27, 2014

Language: Английский

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Exoelectrogens: Recent advances in molecular drivers involved in extracellular electron transfer and strategies used to improve it for microbial fuel cell applications

Renewable and Sustainable Energy Reviews, Journal Year: 2015, Volume and Issue: 56, P. 1322 - 1336

Published: Dec. 29, 2015

Language: Английский

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Electromicrobiology: the ecophysiology of phylogenetically diverse electroactive microorganisms

Nature Reviews Microbiology, Journal Year: 2021, Volume and Issue: 20(1), P. 5 - 19

Published: July 27, 2021

Language: Английский

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Toward a better understanding of microbiologically influenced corrosion caused by sulfate reducing bacteria

Journal of Material Science and Technology, Journal Year: 2018, Volume and Issue: 35(4), P. 631 - 636

Published: Oct. 25, 2018

Language: Английский

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Fundamentals, Applications, and Future Directions of Bioelectrocatalysis

Chemical Reviews, Journal Year: 2020, Volume and Issue: 120(23), P. 12903 - 12993

Published: Oct. 14, 2020

Bioelectrocatalysis is an interdisciplinary research field combining biocatalysis and electrocatalysis via the utilization of materials derived from biological systems as catalysts to catalyze redox reactions occurring at electrode. synergistically couples merits both electrocatalysis. The advantages include high activity, selectivity, wide substrate scope, mild reaction conditions. possible renewable electricity electron source energy conversion efficiency. These properties are integrated achieve selective biosensing, efficient conversion, production diverse products. This review seeks systematically comprehensively detail fundamentals, analyze existing problems, summarize development status applications, look toward future directions bioelectrocatalysis. First, structure, function, modification bioelectrocatalysts discussed. Second, essentials bioelectrocatalytic systems, including transfer mechanisms, electrode materials, medium, described. Third, application bioelectrocatalysis in fields biosensors, fuel cells, solar catalytic mechanism studies, bioelectrosyntheses high-value chemicals summarized. Finally, developments a perspective on suggested.

Language: Английский

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A Post-Genomic View of the Ecophysiology, Catabolism and Biotechnological Relevance of Sulphate-Reducing Prokaryotes

Advances in microbial physiology/Advances in Microbial Physiology, Journal Year: 2015, Volume and Issue: unknown, P. 55 - 321

Published: Jan. 1, 2015

Language: Английский

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Is there a Specific Ecological Niche for Electroactive Microorganisms?

ChemElectroChem, Journal Year: 2016, Volume and Issue: 3(9), P. 1282 - 1295

Published: July 12, 2016

Abstract The core of primary microbial electrochemical technologies (METs) is the ability electroactive microorganisms to interact with electrodes via extracellular electron transfer (EET), allowing wiring current flow and metabolism. Geobacter sulfurreducens Shewanella oneidensis are model organisms for understanding engineering EET. Many other reported being but often sparsely characterized. Based on a literature survey 94 species ascribed as electroactive. Their apparent diversity raises questions natural importance distribution EET capacity, that is, ecological niche electroactivity. To identify this potential environmental preferences habitat characteristics all were combined their metabolic, growth an extensive meta‐analysis performed. results indicate there not single microorganisms. Significantly more presumably exist in nature well already existing strain collections due cultivation techniques leveraged. Thus, light specific traits required industrial application, resource mining based knowledge bears great broadening foundation electrochemistry future developments METs.

Language: Английский

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Microbial nanowires for bioenergy applications

Current Opinion in Biotechnology, Journal Year: 2014, Volume and Issue: 27, P. 88 - 95

Published: Jan. 3, 2014

Language: Английский

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