2022
DOI: 10.1007/s00203-022-03253-6
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Iron reducing sludge as a source of electroactive bacteria: assessing iron reduction in biofilm bacteria, planktonic cells and isolates from a microbial fuel cell

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Cited by 5 publications
(3 citation statements)
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“…The obtained results were higher compared to the results obtained by González-Paz et al (2022) [54], who used iron-reducing bacteria with a mineral medium, obtaining the highest voltage (0.3 V) using a salt bridge. Huang et al (2023) [55] evaluated the use of a consortium of filamentous sulphate-reducing microorganisms from sediments, applied in a sediment fuel cell with an inorganic substrate source, obtaining a maximum voltage of 100 mV.…”
Section: Voltage Productioncontrasting
confidence: 64%
“…The obtained results were higher compared to the results obtained by González-Paz et al (2022) [54], who used iron-reducing bacteria with a mineral medium, obtaining the highest voltage (0.3 V) using a salt bridge. Huang et al (2023) [55] evaluated the use of a consortium of filamentous sulphate-reducing microorganisms from sediments, applied in a sediment fuel cell with an inorganic substrate source, obtaining a maximum voltage of 100 mV.…”
Section: Voltage Productioncontrasting
confidence: 64%
“…Wu et al (2018) managed to remove 78.8% of Cu in an MFC when using sludge as a substrate, mentioning that the decrease in Cu was due to the reductive reactions in the oxidation process of organic compounds, where the substrate was oxidized by the microorganisms electrochemically in order to produce electrons and protons [53]. Gonzalez et al (2022) reduced the percentage of iron by 60% using sludge as a substrate in microbial fuel cells, mentioning that this reduction was due to the presence of planktonic cells [54]. Becerril et al (2021) achieved iron reductions in the range of 80-90% in their MFC when using wastewater as a substrate, mentioning that the acetate present in their samples was used by the exoelectrogenic bacteria as a source of preferred carbon [55].…”
Section: Resultsmentioning
confidence: 99%
“…One focus of research is the application of MFCs or MECs to search for and evaluate suitable electroactive bacterial strains and consortia [5]. Among others, Geobacter sulfurreducens can be used in MECs as a biocatalyst for hydrogen formation at the cathode [6].…”
Section: Introductionmentioning
confidence: 99%