Recycling CO 2 into organic products through microbial electrosynthesis (MES) is attractive
from the perspective of circular bioeconomy. However, several challenges need to be …

Ionic liquids have attracted the attention of the industry and research community as versatile
solvents with unique properties, such as ionic conductivity, low volatility, high solubility of …

The microbial electrochemical technology is a foremost viable technology for hydrogen
production from organic matter or wastewater catalyzed by electroactive microorganisms …

Microbial electrosynthesis (MES) allows carbon-waste and renewable electricity valorization
into industrially-relevant chemicals. MES has received much attention in laboratory-scale …

In the scenario of alarming increase in greenhouse and toxic gas emissions from the
burning of conventional fuels, it is high time that the population drifts towards alternative fuel …

The intensified burning of fossil fuels and the discharging of industrial wastes are severe
threats to the environment. The released CO 2 and organic fractions of industrial and …

Agricultural waste, such as rice husk (RH), can be utilized directly or by converting it into
various value-added chemicals or functional materials. This minireview has two main …

A novel highly stable aqueous foam was synthesized using CO2, sodium silicate (SS) and
anionic surfactant of sodium dodecylbenzene sulfonate. The influence of CO2 foam on the …

Biohydrogen production via dark fermentation is currently the most developed method
considering its practical readiness for scale-up. However, technological issues to be …

Low dissolution of CO 2 in closed tubular photobioreactors results in insufficient carbon
source supply, and often limits microalgae growth. An optimized ZIF8-SE medium containing …