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Conductive Materials on Biocathodes Altered the Electron-Transfer Paths and Modulated γ-HCH Dechlorination and CH<sub>4</sub> Production in Microbial Electrochemical Systems

Jie Cheng, Meng Liu, Xin Su, Bruce E. Rittmann, Zhijiang Lu, Jianming Xu, Yan He

2023Environmental Science & Technology38 citationsDOI

Abstract

Adding conductive materials to the cathode of a microbial electrochemical system (MES) can alter the route of interspecies electron transfer and the kinetics of reduction reactions. We tested reductive dechlorination of γ-hexachlorocyclohexane (γ-HCH), along with CH 4 production, in MES systems whose cathodes were coated with conductive magnetite nanoparticles (NaFe), biochar (BC), magnetic biochar (FeBC), or anti-conductive silica biochar (SiBC). Coating with NaFe enriched electroactive microorganisms, boosted electro-bioreduction, and accelerated γ-HCH dechlorination and CH 4 production. In contrast, BC only accelerated dechlorination, while FeBC only accelerated methanogenesis, because of their assemblies of functional taxa that selectively transferred electrons to those electron sinks. SiBC, which decreased electro-bioreduction, yielded the highest CH 4 production and increased methanogens and the mcrA gene. This study provides a strategy to selectively control the distribution of electrons between reductive dechlorination and methanogenesis by adding conductive or anti-conductive materials to the MES’s cathode. If the goal is to maximize dechlorination and minimize methane generation, then BC is the optimal conductive material. If the goal is to accelerate electro-bioreduction, then the best addition is NaFe. If the goal is to increase the rate of methanogenesis, adding anti-conductive SiBC is the best.

Topics & Concepts

MethanogenesisBiocharCathodeElectrical conductorElectrochemistryElectron transferReductive dechlorinationChemistryChemical engineeringMaterials scienceNanotechnologyMethaneBiodegradationPhotochemistryElectrodeOrganic chemistryComposite materialPyrolysisEngineeringPhysical chemistryMicrobial Fuel Cells and BioremediationElectrochemical sensors and biosensorsCO2 Reduction Techniques and Catalysts