Microbial fuel cells (MFCs) with paper separators and liquid containing elements were investigated in super-capacitive mode. MFCs (15 mL) in a supercapacitive configuration, consisted of plain wrapped carbon veil anode(negative) and conductive latex cathode (positive). The internal supercapacitor is discharged galvanostaticallyand is self-recharged as red-ox reactions occur on both electrodes. MFCs were discharged at different currentpulses varying from 1 mA to 7 mA. The MFCs had an equivalent series resistance of 41.2 ± 3.5Ωcaused mainlyby the cathode. A maximum power of 1.380 ± 0.083 mW (0.092 ± 0.006 mW mL−1) was measured.Durability tests were conducted over 24 h collecting 1000 discharge cycles (0.5 s) and self-recharges (85 s) at acurrent of 1 mA. Over time the anode potential dropped causing a decline in performance perhaps due toevaporation of liquid from the pyramidal structure. Resistance and apparent capacitance measured during thedurability test remained approximately constant during the cycles.
Santoro, C., Winfield, J., Theodosiou, P., Ieropoulos, I. (2019). Supercapacitive paper based microbial fuel cell: High current/power production within a low cost design. BIORESOURCE TECHNOLOGY REPORTS, 7 [10.1016/j.biteb.2019.100297].
Supercapacitive paper based microbial fuel cell: High current/power production within a low cost design
Santoro C
Primo
;
2019
Abstract
Microbial fuel cells (MFCs) with paper separators and liquid containing elements were investigated in super-capacitive mode. MFCs (15 mL) in a supercapacitive configuration, consisted of plain wrapped carbon veil anode(negative) and conductive latex cathode (positive). The internal supercapacitor is discharged galvanostaticallyand is self-recharged as red-ox reactions occur on both electrodes. MFCs were discharged at different currentpulses varying from 1 mA to 7 mA. The MFCs had an equivalent series resistance of 41.2 ± 3.5Ωcaused mainlyby the cathode. A maximum power of 1.380 ± 0.083 mW (0.092 ± 0.006 mW mL−1) was measured.Durability tests were conducted over 24 h collecting 1000 discharge cycles (0.5 s) and self-recharges (85 s) at acurrent of 1 mA. Over time the anode potential dropped causing a decline in performance perhaps due toevaporation of liquid from the pyramidal structure. Resistance and apparent capacitance measured during thedurability test remained approximately constant during the cycles.
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