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Microbial Fuel Cell Performance Boost through the Use of Graphene and Its Modifications-Review

ENERGIES (2023)

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Summary: This study aims to improve electron transfer and cobalt remediation efficiency through microbial fuel cells (MFCs) by modifying the electrode material. The fabricated anodes with biomass-derived graphene oxide (GO) and metal oxides (ZnO and TiO2) as modifiers showed significantly higher power density and current density than traditional GO anode. The biofilm analysis revealed the presence of exoelectrogens and metal-reducing species. The prepared anodes also demonstrated successful cobalt remediation with high biocompatibility.

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Summary: Graphene, as a two-dimensional nanomaterial with exceptional conductivity, huge surface area, and high mechanical strength, has been proposed for use in microbial fuel cells (MFCs) as electrode or membrane material. The synthesis process of graphene-based electrodes and membranes is complex, expensive, and energy-inefficient, and contains harmful chemicals. Despite these challenges, graphene-based electrodes offer a feasible alternative in MFC assembly for sustainable wastewater treatment and electricity production.

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Summary: A three-dimensional graphene (3D GR) grown by chemical vapor deposition method was used as an anode for a miniaturized microbial fuel cell (mini-MFC). The 3D GR showed higher electron transfer rate and electrocatalytic activity, leading to the formation of a denser biofilm and significantly improved output voltage and power density.

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Summary: Different nanomaterials were utilized in the anode materials of microbial fuel cells in this study, and it was found that the MnO2/MWCNTs nanocomposite produced the highest electrical potential outputs (710 mV) and power density (372 mW/m(2)), while promoting the formation of electrochemically active biofilms.

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Silver nanoparticles boost charge-extraction efficiency in Shewanella microbial fuel cells

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Microbial Fuel Cell for Energy Production, Nutrient Removal and Recovery from Wastewater: A Review

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Summary: With the world population growing, the demand for fresh water, energy, and food is increasing, as well as the need for wastewater treatment and recycling. Microbial fuel cells have attracted considerable attention due to their versatility in applications such as wastewater treatment, power generation, and toxic pollutant removal. This review focuses on the recent advancements in nutrient removal and/or recovery with simultaneous power generation using MFC technologies.

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Graphene Oxide Synthesis, Properties and Characterization Techniques: A Comprehensive Review

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Summary: This article explores the unique properties of graphene oxide (GO) and its synthesis methods, focusing on the types and removal of oxygen groups, as well as various characterization techniques used. Additionally, it introduces carbon allotropes and potential avenues for further research in this field.

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