Open AccessPreferential Use of an Anode as an Electron Acceptor by an Acidophilic Bacterium in the Presence of Oxygen
Author(s) -
Moustafá Malki,
António L. De Lacey,
Núria Rodríguez,
Ricardo Amils,
Vı́ctor M. Fernández
Publication year - 2008
Publication title -
applied and environmental microbiology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.552
H-Index - 324
eISSN - 1070-6291
pISSN - 0099-2240
DOI - 10.1128/aem.00209-08
Subject(s) - electron acceptor , microbial fuel cell , electrode , redox , oxidizing agent , anode , saturated calomel electrode , bacteria , electron transport chain , electrochemistry , chemistry , anaerobic bacteria , standard hydrogen electrode , inorganic chemistry , reference electrode , biology , biochemistry , organic chemistry , genetics
Several anaerobic metal-reducing bacteria have been shown to be able to donate electrons directly to an electrode. This property is of great interest for microbial fuel cell development. To date, microbial fuel cell design requires avoiding O(2) diffusion from the cathodic compartment to the sensitive anodic compartment. Here, we show that Acidiphilium sp. strain 3.2 Sup 5 cells that were isolated from an extreme acidic environment are able to colonize graphite felt electrodes. These bacterial electrodes were able to produce high-density electrocatalytic currents, up to 3 A/m(2) at a poised potential of +0.15 V (compared to the value for the reference standard calomel electrode) in the absence of redox mediators, by oxidizing glucose even at saturating air concentrations and very low pHs.
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