Abstract In the past 10–15 years, the microbial fuel cell (MFC) technology has captured the
attention of the scientific community for the possibility of transforming organic waste directly …

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

Bacteria able to transfer electrons to metals are key agents in biogeochemical metal cycling,
subsurface bioremediation, and corrosion processes. More recently, these bacteria have …

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

Broad application of microbial fuel cells will require substantial increases in current density.
A better understanding of the microbiology of these systems may help. Recent studies have …

Paper has been present in the world of analytical chemistry for centuries, but it seems that
just a few years back it was rediscovered as a valuable substrate for sensors. We can easily …

Electrochemical impedance spectroscopy (EIS) is a powerful nondestructive technique that
can act as a beneficial addition to the current techniques for studying microbial fuel cells …

This review illuminates extracellular electron transfer mechanisms that may be involved in
microbial bioelectrochemical systems with biocathodes. Microbially-catalyzed cathodes are …

In microbial fuel cells and electrolysis cells (MXCs), anode-respiring bacteria (ARB) oxidize
organic substrates to produce electrical current. In order to develop an electrical current …

Electroactive biofilms (EABFs) generated by electrochemically active microorganisms have
many potential applications in bioenergy and chemicals production. Biofilm electroactivity …