Add to ORKGAnaerobic bacteria have the ability to produce electricity from the oxidation of organic substrates. They also may use electricity to support chemical reactions that are energetically unfavorable. In the fermentation of sugars, hydrogen can be formed as one of the main products. However, a yield of only four hydrogen per molecule of glucose can be achieved. Potentially, eight additional hydrogen molecules could be produced when the other main fermentation product acetate is converted further, which however is energetically not possible. By the input of electricity, acetate can be oxidized further to form hydrogen. This paper reviews the scarce knowledge of how electricity can be used to produce hydrogen in the microbial oxidation of acetate...
Large amounts of hydrogen are produced worldwide, which are nearly all from fossil origin. Use of bi...
Hydrogenophilic dechlorinating bacteria are till now known for their ability to use hydrogen as elec...
Electricity is being used to drive microbial and enzymatic reactions. This is mostly done on the bas...
Anaerobic bacteria have the ability to produce electricity from the oxidation of organic substrates....
Biocatalyzed electrolysis is a novel biological hydrogen production process with the potential to ef...
Biocatalyzed electrolysis is a microbial fuel cell based technology for the generation of hydrogen g...
This research focuses on the production of hydrogen and methane by using microorganisms as the elect...
Electron-transfer pathways occurring in biocathodes are still unknown. We demonstrate here that high...
Bioelectrochemical systems (BES) can provide an energy efficient way to recover nutrients from waste...
Electron-transfer pathways occurring in biocathodes are still unknown. We demonstrate here that high...
Geobacter sulfurreducens is a well-known current-producing microorganism in microbial fuel cells, an...
The conversion of molecular hydrogen into microbial biomass using hydrogen-oxidizing bacteria, culti...
Majority of energy is derived from fossil fuels, which are non-sustainable resources that may exhaus...
Biological hydrogen production is considered one reasonable alternative for generating H2 as a fuel ...
Large amounts of hydrogen are produced worldwide, which are nearly all from fossil origin. Use of bi...
Hydrogenophilic dechlorinating bacteria are till now known for their ability to use hydrogen as elec...
Electricity is being used to drive microbial and enzymatic reactions. This is mostly done on the bas...
Anaerobic bacteria have the ability to produce electricity from the oxidation of organic substrates....
Biocatalyzed electrolysis is a novel biological hydrogen production process with the potential to ef...
Biocatalyzed electrolysis is a microbial fuel cell based technology for the generation of hydrogen g...
This research focuses on the production of hydrogen and methane by using microorganisms as the elect...
Electron-transfer pathways occurring in biocathodes are still unknown. We demonstrate here that high...
Bioelectrochemical systems (BES) can provide an energy efficient way to recover nutrients from waste...
Electron-transfer pathways occurring in biocathodes are still unknown. We demonstrate here that high...
Geobacter sulfurreducens is a well-known current-producing microorganism in microbial fuel cells, an...
The conversion of molecular hydrogen into microbial biomass using hydrogen-oxidizing bacteria, culti...
Majority of energy is derived from fossil fuels, which are non-sustainable resources that may exhaus...
Biological hydrogen production is considered one reasonable alternative for generating H2 as a fuel ...
Large amounts of hydrogen are produced worldwide, which are nearly all from fossil origin. Use of bi...
Hydrogenophilic dechlorinating bacteria are till now known for their ability to use hydrogen as elec...
Electricity is being used to drive microbial and enzymatic reactions. This is mostly done on the bas...