The excessive consumption of fossil fuels causes massive emission of CO2, leading to
climate deterioration and environmental pollution. The development of substitutes and …

Bioelectrocatalysis is an interdisciplinary research field combining biocatalysis and
electrocatalysis via the utilization of materials derived from biological systems as catalysts to …

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

Microbiologically influenced corrosion (MIC) constantly occurs in water/wastewater systems,
especially in marine water. MIC contributes to billions of dollars in damage to marine …

Microbial electrochemistry is the study and application of interactions between living
microbial cells and electrodes (ie electron conductors, capacitive materials). For a long time …

Electroactive biofilms (EABs) are electroactive microorganisms (EAMs) encased in
conductive polymers that are secreted by EAMs and formed by the accumulation and cross …

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

Electroactive microorganisms can exchange electrons with other cells or conductive
interfaces in their extracellular environment. This property opens the way to a broad range of …

Bioenergy is a renewable energy that plays an indispensable role in meeting today's ever
increasing energy needs. Unlike biofuels, microbial fuel cells (MFCs) convert energy …

Bacterial adhesion and biofilm formation are both dependent on the production of
extracellular polymeric substances (EPS) mainly composed of polysaccharides, proteins …