Acidithiobacillus ferrooxidans YNTRS-40 (A. ferrooxidans) is a chemolithoautotrophic
aerobic bacterium isolated from Tengchong hot springs, Yunnan Province, China, with a …

Bacteria are the driving force of the microbial fuel cell (MFC) technology, which benefits from
their natural ability to degrade organic matter and generate electricity. The development of …

Microbial electrosynthesis is a relatively new research field where microbial carbon dioxide
fixation based on the energy supplied by a cathode is investigated. Reaction media used in …

Microbial electroactivity, the metabolically relevant transfer of electrons between
microorganisms and solid conductors, was first discovered for now well characterized model …

The performance of microbial fuel cells in terms of current production and waste removal
depends on microbial electron transfer catalyzed by functional communities. Active energy …

Microbial electrochemical systems are able to harvest electricity or synthesize valuable
chemicals from organic matters while simultaneously cleaning environmentally hazardous …

Anode-associated multispecies exoelectrogenic biofilms are essential for the function of
bioelectrochemical systems (BESs). The individual activities of anode-associated organisms …

Metabolic energy (ME) homeostasis is essential for the survival and proper functioning of
microbial cell factories. However, it is often disrupted during bioproduction because of …

For emerging bioelectronic technologies, charge-transfer processes remain rate limited by
energy-level mismatching and poor contacts at biotic-abiotic interfaces. Direct chemical …

Biofilm development on surfaces represents one of the most challenging issues in the
medical field. The irreversibility of the biofilm developmental process, and the peculiar …