Add to ORKGMicroorganisms that can form direct electrical connections with insoluble minerals, electrodes, or other microorganisms can play an important role in some traditional as well as novel bioenergy strategies and can be helpful in the remediation of environmental contamination resulting from the use of more traditional energy sources. The surprising discovery that microorganisms in the genus Geobacter are capable of forming highly conductive networks of filaments that transfer electrons along their length with organic metallic-like conductivity, rather than traditional molecule to molecule electron exchange, provides an explanation for the ability of Geobacter species to grow in subsurface environments with insoluble Fe(III) oxides as the elect...
A vast array of microorganisms from all three domains of life can produce electrical current and tra...
Microorganisms spend their lives searching for chemical reactants that yield metabolically usable en...
Bidirectional extracellular electron transfer (EET) is mediated by back and forth electron delivery ...
Microorganisms that can form direct electrical connections with insoluble minerals, electrodes, or o...
In nature, highly efficient and diverse consortia of microbes cycle carbon and other elements while ...
Geobacter sulfurreducens developed highly structured, multilayer biofilms on the anode surface of a ...
One of the most exciting developments in the field of electromicrobiology has been the discovery of ...
The electrogenic bacterium Geobacter synthesizes conductive extracellular nanowires to facilitate el...
bacterial networks for microbial fuel cells Ryuhei Nakamura and Kazuhito Hashimoto Metal-reducing ba...
Bio-electrochemical systems (BESs) have recently emerged as an exciting technology. In a BES, bacter...
Bio-electrochemical systems (BESs) have recently emerged as an exciting technology. In a BES, bacter...
Previous studies have shown that members of the family Geobacteraceae that attach to the anodes of s...
Geobacter sulfurreducens developed highly structured, multilayer biofilms on the anode surface of a ...
Perceived applications of microbe-electrode interactions are shifting from production of electric po...
The discovery of electrotrophs, microorganisms that can directly accept electrons from electrodes fo...
A vast array of microorganisms from all three domains of life can produce electrical current and tra...
Microorganisms spend their lives searching for chemical reactants that yield metabolically usable en...
Bidirectional extracellular electron transfer (EET) is mediated by back and forth electron delivery ...
Microorganisms that can form direct electrical connections with insoluble minerals, electrodes, or o...
In nature, highly efficient and diverse consortia of microbes cycle carbon and other elements while ...
Geobacter sulfurreducens developed highly structured, multilayer biofilms on the anode surface of a ...
One of the most exciting developments in the field of electromicrobiology has been the discovery of ...
The electrogenic bacterium Geobacter synthesizes conductive extracellular nanowires to facilitate el...
bacterial networks for microbial fuel cells Ryuhei Nakamura and Kazuhito Hashimoto Metal-reducing ba...
Bio-electrochemical systems (BESs) have recently emerged as an exciting technology. In a BES, bacter...
Bio-electrochemical systems (BESs) have recently emerged as an exciting technology. In a BES, bacter...
Previous studies have shown that members of the family Geobacteraceae that attach to the anodes of s...
Geobacter sulfurreducens developed highly structured, multilayer biofilms on the anode surface of a ...
Perceived applications of microbe-electrode interactions are shifting from production of electric po...
The discovery of electrotrophs, microorganisms that can directly accept electrons from electrodes fo...
A vast array of microorganisms from all three domains of life can produce electrical current and tra...
Microorganisms spend their lives searching for chemical reactants that yield metabolically usable en...
Bidirectional extracellular electron transfer (EET) is mediated by back and forth electron delivery ...