Add to ORKGHere, we report a comparative study on the kinetic activity of various anodes of a recently described microbial fuel cell consisting of an anode imbedded in marine sediment and a cathode in overlying seawater. Using plain graphite anodes, it was demonstrated that a significant portion of the anodic current results from oxidation of sediment organic matter catalyzed by microorganisms colonizing the anode and capable of directly reducing the anode without added exogenous electron-transfer mediators. Here, graphite anodes incorporating microbial oxidants are evaluated in the laboratory relative to plain graphite with the goal of increasing power density by increasing current density. Anodes evaluated include graphite modified by adsorption of ...
Microbial fuel cells (MFC) are fuel cells able to use electrons generated by electron-transport chai...
Numerous biocorrosion studies have stated that biofilms formed in aerobic seawater induce an efficie...
Here we evaluated the graphite anodes activated by melamine, carbamide, ZnCl2 and H3PO4 in microbial...
Many bacteria can convert chemical energy to electrical energy: they oxidize diverse organic substra...
International audienceA procedure was proposed to mimic marine microbial fuel cell (MFC) in liquid p...
Global environmental concerns, the depletion of the earth's finite resources and economic considerat...
Graduation date: 2004Anoxic sediment overlain by oxic seawater establishes a voltage gradient on the...
Pairs of platinum mesh or graphite fiber-based electrodes, one embedded in marine sediment (anode), ...
International audienceNumerous biocorrosion studies have stated that biofilms formed in aerobic seaw...
For a few years it has been demonstrated that micro-organisms contained in different natural environ...
In many marine environments, a voltage gradient exists across the water sediment interface resulting...
In many marine environments, a voltage gradient exists across the water sediment interface resulting...
For monitoring environmental conditions of remote places, sustainable power generators are necessary...
Four non-porous materialswere compared for their suitability as bio-anode in microbial fuel cells (M...
Graduation date: 2009A benthic microbial fuel cell (BMFC) is an electrochemical device that\ud gener...
Microbial fuel cells (MFC) are fuel cells able to use electrons generated by electron-transport chai...
Numerous biocorrosion studies have stated that biofilms formed in aerobic seawater induce an efficie...
Here we evaluated the graphite anodes activated by melamine, carbamide, ZnCl2 and H3PO4 in microbial...
Many bacteria can convert chemical energy to electrical energy: they oxidize diverse organic substra...
International audienceA procedure was proposed to mimic marine microbial fuel cell (MFC) in liquid p...
Global environmental concerns, the depletion of the earth's finite resources and economic considerat...
Graduation date: 2004Anoxic sediment overlain by oxic seawater establishes a voltage gradient on the...
Pairs of platinum mesh or graphite fiber-based electrodes, one embedded in marine sediment (anode), ...
International audienceNumerous biocorrosion studies have stated that biofilms formed in aerobic seaw...
For a few years it has been demonstrated that micro-organisms contained in different natural environ...
In many marine environments, a voltage gradient exists across the water sediment interface resulting...
In many marine environments, a voltage gradient exists across the water sediment interface resulting...
For monitoring environmental conditions of remote places, sustainable power generators are necessary...
Four non-porous materialswere compared for their suitability as bio-anode in microbial fuel cells (M...
Graduation date: 2009A benthic microbial fuel cell (BMFC) is an electrochemical device that\ud gener...
Microbial fuel cells (MFC) are fuel cells able to use electrons generated by electron-transport chai...
Numerous biocorrosion studies have stated that biofilms formed in aerobic seawater induce an efficie...
Here we evaluated the graphite anodes activated by melamine, carbamide, ZnCl2 and H3PO4 in microbial...