A framework for modeling electroactive microbial biofilms performing direct electron transfer
Benjamin Korth, Luis F.M. Rosa, Falk Harnisch, Cristian Picioreanu
UFZ — Helmholtz-Centre for Environmental Research, Department of Environmental Microbiology, Permoserstrasse 15, 04318 Leipzig, Germany.
Abstract
A modeling platform for microbial electrodes based on electroactive microbial biofilms performing direct electron transfer (DET) is presented. Microbial catabolism and anabolism were coupled with intracellular and extracellular electron transfer, leading to biofilm growth and current generation. The model includes homogeneous electron transfer from cells to a conductive biofilm component, biofilm matrix conduction, and heterogeneous electron transfer to the electrode. Model results for Geobacter based anodes, both at constant electrode potential and in voltammetric (dynamic electrode potential) conditions, were compared to experimental data from different sources. The model can satisfactorily describe microscale (concentration, pH and redox gradients) and macroscale (electric currents, biofilm thickness) properties of Geobacter biofilms. The concentration of electrochemically accessible redox centers, here denominated as cytochromes, involved in the extracellular electron transfer, plays the key role and may differ between constant potential (300 mM) and dynamic potential (3 mM) conditions. Model results also indicate that the homogeneous and heterogeneous electron transfer rates have to be within the same order of magnitude (1.2 s-1) for reversible extracellular electron transfer.
Graphical abstract
Keywords: Model; Bioelectrochemical systems; Electrochemically active microbial biofilms; Extracellular electron transfer; Microbial electrochemical technologies.
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management, microorganisms, microbes, pollution control, toxic chemicals,
central and offshore ecology, environmentally sound and appropriate technology,
bio-degradation of wastes.