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Indexed by:期刊论文

Date of Publication:2021-01-10

Journal:JOURNAL OF POWER SOURCES

Volume:478

ISSN No.:0378-7753

Key Words:Dual-doping; Defect-rich; Photo-bio-electrocatalytic; Synergistic effect

Abstract:We describe the successful fabrication of a superior Co and N heteroatom dual-doped MoS2 anchored on porous biomass carbon (PBC) with the formation of interfacial Mo-Co/N active centers. Originating from its exposure of multiple metal oxidation states as well as special PBC framework, this hybrid catalyst exhibits admirable electrocatalytic activity for the hydrogen evolution reaction (HER) and synchronous antibiotic degradation in a photo-driven double cathode microbial fuel cell (DC-MFC), which demonstrates remarkable synergistic catalytic effects in contrast to a single cathode MFC (SC-MFC). Subsequently, a comprehensive characterization analysis combining with density functional theory (DFT) calculations further elucidates that the incorporation of N and Co atoms could facilitate the elevation of the conduction band (-0.12 eV to-1.02 eV) by refining the intrinsic defect band structure. On one hand, the self-generation of higher redox potential sulfate radicals (SO4-) largely accelerates the mineralization of the target pollutant, and the corresponding degradation pathway is investigated. On the other hand, the creation of interstitial sulfur vacancies and interfacial Co-Mo-S sites are beneficial