Titlebook: Bioelectrochemical Systems; Vol.1 Principles and Prasun Kumar,Chandrasekhar Kuppam Book 2020 Springer Nature Singapore Pte Ltd. 2020 Bioele

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Effective Cathode Catalysts for O2 Reduction Reactions,athodic reaction kinetics in MFCs causes a high overpotential of the oxygen reduction reaction (ORR) and leading to potential loss. Therefore, the development of effective cathode catalysts is required to facilitate the practical application of MFCs. Various studies have paid attention to improving

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Biocatalysts in Electrofermentation Systems,lized, increasing the yield of the target product. Biocatalysts play a crucial role—they can substitute the usually expensive metal-based catalysts in electrosynthesis, not to mention that they operate at mild temperature and pressure. The ample diversity of enzymes and microorganisms allows for the

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Microbial Electrosynthesis for Harnessing Value-Added Product via Carbon Dioxide Sequestering,nt technique is required to fix this damage. Recently, bioelectrochemical systems (BES) emerged to decrease CO. emissions and produce biofuel as a renewable source of energy. The microbial electrosynthesis (MES) is a new introduction to BES which uses microorganisms as a catalyst for utilizing CO. a

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Electrotrophs and Electricigens; Key Players in Microbial Electrophysiology,lectrochemical system. Typically these exoelectrogens are iron-reducing bacteria (e.g., .) that are capable of producing high power density at moderate temperatures. Under nutrient sufficient conditions, other microbes ranging from extremophiles to yeasts can also produce high current densities. On