Background Biofilms are microorganisms community embedded in the self-secreted
extracellular polymeric substances, which can provide microbes with strong tolerance and …

Microbial electrocatalysis reckons on microbes as catalysts for reactions occurring at
electrodes. Microbial fuel cells and microbial electrolysis cells are well-known in this context; …

Cathodic biofilms have an important role in CO 2 bio-reduction to carboxylic acids and
biofuels in microbial electrosynthesis (MES) cells. However, robust and resilient …

Global warming has emerged as a major problem for humanity in this anthropocentric
period. The constantly rising amount of carbon dioxide (CO2) in the atmosphere has caused …

Large emissions of atmospheric carbon dioxide (CO 2) are causing climatic and
environmental problems. It is crucial to capture and utilize the excess CO 2 through diverse …

Bioelectrochemistry has gained importance in recent years for some of its applications on
waste valorization, such as wastewater treatment and carbon dioxide conversion, among …

Wastewater management is becoming a serious issue worldwide. To enhance the reuse of
wastewater, one has to remove toxic pollutants present in it. High amount of dye is present in …

Microbial electrosynthesis (MES) is a renewable energy platform capable of reducing the
carbon footprint by converting carbon dioxide/bicarbonate to useful chemical commodities …

Most bio-electrochemical systems (BESs) use biotic/abiotic electrode combinations, with
platinum-based abiotic electrodes being the most common. However, the non-renewability …

The reduction of carbon dioxide (CO 2) to high value-added multi-carbon compounds at the
cathode is an emerging application of microbial electrosynthesis system (MES). In this study …