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 …

Making chemicals from the air is a visionary objective that can potentially revolutionise
chemical production. This critical review shows that the essential elements to realise this …

Gas fermentation using homoacetogenic consortia to convert CO2 into sustainable fuels and
chemicals has emerged as a promising biotechnological route toward carbon neutrality …

Microbial electrosynthesis (MES) can use microorganisms and power to convert CO 2
reduction into valuable chemicals. The non-biofilm-driven and H 2-mediated MES could …

The autochthonous microbial community from excess sludge was regulated for enhanced
conversion of CO 2 to acetate without exogenic H 2. It was interesting that the acetate-fed …

The increase in the CO 2 concentration in the atmosphere due to the intensive burning of
fossil fuels, for the energy needs of our modern society, has strongly contributed to global …

CO 2 and toxic wastewater were converted into bioelectricity through photo-bioanode in a
microbial fuel cell (MFCs). Photo-bioanode provided multifunctional regions due to four …

Biosynthesis of ethanol through syngas fermentation employing enriched microbial
consortia offers resilience to operate under non-sterile conditions with energy efficiency. Gas …

This study proposes novel hybrid methodology that combines machine learning (ML)
techniques with experimental strategies to analyse microbial growth-kinetics of acetic acid …

Microbial cell factories offer an eco-friendly alternative for transforming raw materials into
commercially valuable products because of their reduced carbon impact compared to …