Add to ORKGIn this research, we investigated the bioelectrochemical production of methane gas from carbon dioxide reduction by using a microbial biocathode, based on a hydrogenophilic methanogenic culture, not previously acclimated in bioelectrochemical systems. Methane production was found to proceed on plain carbon cathodes, polarized at potentials more negative than -650 mV (vs. SHE), both via direct extracellular electron transfer and via abiotically produced hydrogen gas (i.e., via hydrogenophilic methanogenesis). The relative contribution of these routes to methane production was highly dependent on the cathode potential. The use of redox mediators (i.e.: Neutral Red, E°'= -325 mV vs. SHE) allowed to carry out the reaction at less reducing poten...
Biocathodes where living microorganisms catalyse reduction of CO2 can potentially be used to produce...
Formation of hydrogen, methane, and organics at biocathodes is an attractive new application of bioe...
Formation of hydrogen, methane, and organics at biocathodes is an attractive new application of bioe...
This study describes the performance of a microbial biocathode, based on a hydrogenophilic methanoge...
BACKGROUND In a methane-producing bioelectrochemical system (BES) microorganisms grow on an electrod...
BACKGROUND In a methane-producing bioelectrochemical system (BES) microorganisms grow on an electrod...
This research focuses on the production of hydrogen and methane by using microorganisms as the elect...
A methane-producing biocathode that converts CO2 into methane was studied electrochemically and micr...
AbstractTo establish a biotechnological system to convert CO2 into methane, we are trying to develop...
This study describes the performance of bioelectrochemical systems, based on electrochemically activ...
Reduction of carbon dioxide to methane by microorganisms attached to electrodes is a promising proce...
Reduction of carbon dioxide to methane by microorganisms attached to electrodes is a promising proce...
Methane and acetate production through CO2 reduction has been tested by using chemoautotrophic micro...
ABSTRACT: The utilization of bioelectrochemical systems for methane production has attracted increas...
Formation of hydrogen, methane, and organics at biocathodes is an attractive new application of bioe...
Biocathodes where living microorganisms catalyse reduction of CO2 can potentially be used to produce...
Formation of hydrogen, methane, and organics at biocathodes is an attractive new application of bioe...
Formation of hydrogen, methane, and organics at biocathodes is an attractive new application of bioe...
This study describes the performance of a microbial biocathode, based on a hydrogenophilic methanoge...
BACKGROUND In a methane-producing bioelectrochemical system (BES) microorganisms grow on an electrod...
BACKGROUND In a methane-producing bioelectrochemical system (BES) microorganisms grow on an electrod...
This research focuses on the production of hydrogen and methane by using microorganisms as the elect...
A methane-producing biocathode that converts CO2 into methane was studied electrochemically and micr...
AbstractTo establish a biotechnological system to convert CO2 into methane, we are trying to develop...
This study describes the performance of bioelectrochemical systems, based on electrochemically activ...
Reduction of carbon dioxide to methane by microorganisms attached to electrodes is a promising proce...
Reduction of carbon dioxide to methane by microorganisms attached to electrodes is a promising proce...
Methane and acetate production through CO2 reduction has been tested by using chemoautotrophic micro...
ABSTRACT: The utilization of bioelectrochemical systems for methane production has attracted increas...
Formation of hydrogen, methane, and organics at biocathodes is an attractive new application of bioe...
Biocathodes where living microorganisms catalyse reduction of CO2 can potentially be used to produce...
Formation of hydrogen, methane, and organics at biocathodes is an attractive new application of bioe...
Formation of hydrogen, methane, and organics at biocathodes is an attractive new application of bioe...