Areli Ortega-Martínez scite author profile

The aim of this work was to design and characterize a novel, multiface parallelepiped MFC in the perspective of decreasing the internal resistance (Rint) and increasing the volumetric power (Pv) output. The cell was fitted with a ‘sandwich’ cathode-membrane-anode assemblage in five of its faces, and possessed a ratio electrode surface area-to-volume ξ (csi) of 19 m-1 . When the 5 faces of the MFC-P were connected in series, the Rint was 601 Ω with a voltage of 0.52 V. Characterization of the cell with the 5 faces connected in parallel gave a Rint of 62 Ω with a voltage of 0.5 V that corresponded to external resistance of 56 k Ω in the polarization procedure. This result was ascribed to both the changes in cell architecture and decrease of the inter-electrode distance as well as the parallel connection. The Pv of the new MFC-P achieved values of 62 and 570 mW/m3 for series and parallel connection, respectively. Molecular ecological techniques were used to analyze the bacterial diversity of biocatalyst used in new design MFC-P. They showed a low species richness and low-to-moderate evenness. The community consisted primarily of δ-Proteobacteria and Firmicutes, bacteria that are recognized to be capable of exocellular electron transfer.

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A review of biocathodes and enrichment strategies of electrochemically active bacteria for enhanced bioelectricity generation in microbial fuel cells

Ortega-Martínez¹,

Vázquez-Larios²,

Juárez-López³

et al. 2010

Journal of Biotechnology

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Oil-contaminated sediment amended with chitin enhances power production by minimizing the sediment microbial fuel cell internal resistance

Aleman-Gama

Cornejo-Martell²,

Ortega-Martínez

et al. 2021

Journal of Electroanalytical Chemistry

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