A wide diversity of microorganisms, typically growing as biofilms, has been implicated in
corrosion, a multi-trillion dollar a year problem. Aerobic microorganisms establish conditions …

Escherichia coli is considered to be the best-known microorganism given the large number
of published studies detailing its genes, its genome and the biochemical functions of its …

Reconstructed microbial metabolic networks facilitate a mechanistic description of the
genotype–phenotype relationship through the deployment of constraint-based …

Electromicrobiology deals with the interactions between microorganisms and electronic
devices and with the novel electrical properties of microorganisms. A diversity of …

Microbial electrosynthesis, a process in which microorganisms use electrons derived from
electrodes to reduce carbon dioxide to multicarbon, extracellular organic compounds, is a …

Geobacter species specialize in making electrical contacts with extracellular electron
acceptors and other organisms. This permits Geobacter species to fill important niches in a …

The study of electrically conductive protein nanowires in Geobacter sulfurreducens has led
to new concepts for long-range extracellular electron transport, as well as for the …

Electrochemically active bacteria can transport their metabolically generated electrons to
anodes, or accept electrons from cathodes to synthesize high‐value chemicals and fuels, via …

Microorganisms that can form direct electrical connections with insoluble minerals,
electrodes, or other microorganisms can play an important role in some traditional as well as …

Bioelectrochemical systems (BES), typically microbial fuel cells (MFCs), have attracted
increasing attention in the past decade due to their promising applications in many fields …