2011
DOI: 10.1016/j.bios.2011.06.045
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Adaptation to high current using low external resistances eliminates power overshoot in microbial fuel cells

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Cited by 176 publications
(71 citation statements)
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“…The electro catalytic behavior of the activated anodes was characterized by slow LSV (1 mV s −1 ), after voltage stabilization for approximately 100 hours. Figure 1D shows that all activated anodes exhibited catalytic behavior for the bio-electro oxidation of acetate as shown by the appearance of an oxidation current at an onset potential of −0.25 V (vs. SHE) similar to other previous reports [21,28,30]. Significant differences in currentpotential profiles were observed for anodes activated using different external resistances.…”
Section: Anode Activation At Different External Resistancesupporting
confidence: 68%
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“…The electro catalytic behavior of the activated anodes was characterized by slow LSV (1 mV s −1 ), after voltage stabilization for approximately 100 hours. Figure 1D shows that all activated anodes exhibited catalytic behavior for the bio-electro oxidation of acetate as shown by the appearance of an oxidation current at an onset potential of −0.25 V (vs. SHE) similar to other previous reports [21,28,30]. Significant differences in currentpotential profiles were observed for anodes activated using different external resistances.…”
Section: Anode Activation At Different External Resistancesupporting
confidence: 68%
“…For scanning electronic microscopy (SEM), carbon felt anodes were removed from the chamber, and biofilms were fixed with 1% gluteraldehyde overnight, followed by dehydration with a series of graded ethanol (30,50,70,80,95, and 100%). The anode surface was observed using scanning electronic microscopy (HITACHI S-4800 SEM).…”
Section: Measurementsmentioning
confidence: 99%
“…The medium replacement process removed suspended microbes and reduced the contribution of any redox-active soluble electron shuttles that may have been produced by the bacteria. To establish electrogenic communities, the external resistor was decreased stepwise from 510 O to 22 O (Figure 1), which has been successfully demonstrated to improve MFC electron recovery (Fan et al, 2008;Shimoyama et al, 2008;Hong et al, 2011;Jung and Regan, 2011 (Figure 2). The SP-L-b reactor started generating current more slowly than the SP-L-a reactor, indicating that an anode potential of À 200 mV vs SHE may not have been a favorable selective pressure to reproducibly select for similar microbial EET activities.…”
Section: Mfc and Sp Enrichment And Current Generationmentioning
confidence: 99%
“…27) Although the phenomenon has been reported in numerous MFC studies, its mechanism is not fully understood. 28) Nevertheless, it has been suggested that power overshoot is due to limited performance of the anode under sub-optimal conditions. 29) In addition, the increase in the operating temperature could also improve the diffusion coefficients of the substrates and protons, causing the decrease in internal resistance of the MFC and hence the improvement of MFC performance.…”
Section: Effects Of the Operating Temperature On Mfc Performancementioning
confidence: 99%