Electroactive bacteria can display notable plasticity in their response to magnetic field (MF),
which prompted bioelectrochemical system as promising candidates for magnetic sensor …

Approximately four billion years ago, the first microorganisms to thrive on earth were
anaerobic chemoautotrophic thermophiles, a specific group of extremophiles that survive …

Microbial fuel cells (MFCs) could achieve the removal of antibiotics and generate power in
the meantime, a process in which the bacterial community structure played a key role …

Extracellular electron transfer is the predominant electricity generation process in microbial
fuel cells (MFCs). Our pervious study have proved that the anodic adsorption of rhamnolipid …

With applications in bioremediation, biosensing, and bioenergy, microbial electrochemical
systems are a rapidly growing, multidisciplinary field within biological, chemical, and …

Microbially mediated bioreduction of iron oxyhydroxide plays an important role in the
biogeochemical cycle of iron. Geobacter sulfurreducens is a representative dissimilatory iron …

The natural bioelectrochemical phenomenon termed biogeobattery has exhibited a great
ability to enlarge the effective remediation area to even meter-scale by the conductive …

Magnetotactic bacteria reside in sediments and stratified water columns. They are named
after their ability to synthesize internal magnetic particles that allow them to align and swim …

Coal mining is responsible for 11% of total anthropogenic methane emission thereby
contributing considerably to climate change. Attempts to harvest coalbed methane for …

This study assessed the spatial distribution of biofilm conductivity (K bi o) across a multi-
centimetre long anodic biofilm grown on an eight-electrode anode array at different growth …