Redox mediator plays an important role in extracellular electron transfer (EET) in many
environments wherein microbial electrocatalysis occurs actively. Because of the block of cell …

Electroactive microorganisms acting as microbial electrocatalysts have intrinsic metabolisms
that mediate a redox potential difference between solid electrodes and microbes, leading to …

Microbial electrochemical techniques describe a variety of emerging technologies that use
electrode–bacteria interactions for biotechnology applications including the production of …

More and more microbes are discovered that are capable of extracellular electron transfer, a
process in which they use external electrodes as electron donors or acceptors for metabolic …

Extracellular electron transfer (EET) is a type of microbial respiration that enables electron
transfer between microbial cells and extracellular solid materials, including naturally …

Extracellular electron transfer pathways allow certain bacteria to transfer energy between
intracellular chemical energy stores and extracellular solids through redox reactions …

In microbial electrochemical systems, microorganisms catalyze chemical reactions
converting chemical energy present in organic and inorganic molecules into electrical …

Redox mediators are commonly used in microbial electrochemical systems to enable or
enhance the electron transfer between microorganisms and electrodes. In recent studies …

Microbial electron uptake (EU) is the biological capacity of microbes to accept electrons from
electroconductive solid materials. EU has been leveraged for sustainable bioproduction …

Electroactive microorganisms (EAMs) are ubiquitous in nature and have attracted
considerable attention as they can be used for energy recovery and environmental …