Periodic polarization of electroactive biofilms increases current density and charge carriers concentration while modifying biofilm structure

Anodic electroactive biofilms (EABs) need to overcome low current densities for applications such as microbial fuel cells or biosensors. EABs can store charge in self-produced redox proteins when temporarily left in open circuit, and discharge them once the electrode is appropriately repolarized, th...

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Bibliographic Details
Published in:Biosensors & bioelectronics 2018-12, Vol.121, p.183-191
Main Authors: Zhang, Xu, Prévoteau, Antonin, Louro, Ricardo O., Paquete, Catarina M., Rabaey, Korneel
Format: Article
Language:English
Subjects:
Bioelectric Energy Sources
Biofilm morphology
Biofilms
Biosensing Techniques
Charge storage capacity
Charge transport parameter
Electrodes - microbiology
Electrophysiological Phenomena
Geobacter - physiology
Geobacter-dominated biofilm
Microbial pseudocapacitor
Redox protein
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Summary:Anodic electroactive biofilms (EABs) need to overcome low current densities for applications such as microbial fuel cells or biosensors. EABs can store charge in self-produced redox proteins when temporarily left in open circuit, and discharge them once the electrode is appropriately repolarized, thus behaving as pseudocapacitors. Here we investigated the effect of such periodic polarization on the intrinsic nature of the EABs during their entire growth (i.e. starting from inoculation and for 10 days) on glassy carbon electrodes. An optimal periodic polarization (half-period of 10 s) greatly increased the maximum steady-state current density delivered by the Geobacter-dominated EABs (up to 1.10 ± 0.02 mA cm−2, n = 3 electrodes) when compared to continuously polarized EABs (0.41 ± 0.04 mA cm−2); and increased the amount of electric charges produced per hour by 69 ± 17% even taking into account the half-periods of open circuit. This enhancement was highly correlated with a substantial increase in charge carriers concentration (10.6 ± 0.5 mMe- vs. 2.9 ± 0.6 mMe-), allowing higher charge storage capacity and higher electron mobility across the EABs. Our results suggest that appropriate periodic polarizations may upregulate the expression of heme-containing redox proteins associated with the matrix, such as c-type cytochromes. The EABs grown under periodic polarization presented mushroom-like structures on their top layers, while EABs grown under continuous polarization were flat. [Display omitted] •Growth under periodic polarization tunes the intrinsic nature of anodic biofilms.•Steady-state catalytic current density increased up to 3-times.•This current was highly correlated with the concentration of redox charge carriers.•Biofilms grown under periodic polarization developed mushroom-like structures.
ISSN:0956-5663
1873-4235
DOI:10.1016/j.bios.2018.08.045