Publication | Closed Access
Nanoflower-like MoS<sub>2</sub> anchored on electrospun carbon nanofiber-interpenetrated reduced graphene oxide as a microbial fuel cell anode achieving high power density
37
Citations
42
References
2023
Year
Chemical EngineeringEngineeringCarbon-based MaterialWeak Biofilm ColonizationHigh Power DensityMicrobial Electrochemical SystemGrapheneMicrobial Fuel CellBioelectrochemical ReactorFuel CellsEnvironmental MicrobiologyMicrobiologyChemistryAnode MaterialsMicrobial Fuel CellsBioelectrochemical SystemBiofuel Cell
Weak biofilm colonization and sluggish extracellular electron transfer (EET) between the biofilm and anode are major obstacles to achieving high power density in microbial fuel cells (MFCs).
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