Junyoung Sim scite author profile

This study assessed the conductivity of a Geobacter-enriched biofilm anode in a microbial electrochemical cell (MxC) equipped with two gold anodes (25 mM acetate medium), as different proton gradients were built throughout the biofilm. There was no pH gradient across the biofilm anode at 100 mM phosphate buffer (current density 2.38 A/m) and biofilm conductivity (K) was as high as 0.87 mS/cm. In comparison, an inner biofilm became acidic at 2.5 mM phosphate buffer in which dead cells were accumulated at ∼80 μm of the inner biofilm anode. At this low phosphate buffer, K significantly decreased by 0.27 mS/cm, together with declined current density of 0.64 A/m. This work demonstrates that biofilm conductivity depends on the composition of live and dead cells in the conductive biofilm anode.

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Junyoung Sim

Characterization and optimization of cathodic conditions for H 2 O 2 synthesis in microbial electrochemical cells

Control of voltage reversal in serially stacked microbial fuel cells through manipulating current: Significance of critical current density

Application of MATLAB and Python optimizers to two case studies involving groundwater flow and contaminant transport modeling

Hydrogen peroxide production in a pilot-scale microbial electrolysis cell

Microbial activity influences electrical conductivity of biofilm anode

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