Microbial electrochemical synthesis (MES) can promote an electro-reduction of CO 2 to
value-added products with nanohybrid catalysts for efficient electron and mass transfer. This …

Issues like global warming and the associated climate change demand alternative green
biofuel in place of the fossil fuel. Biogas, which mainly contains carbon dioxide and …

Microbial electrosynthesis (MES) is a promising bioelectrochemical approach to produce
biochemicals. A previous study showed that Rhodopseudomonas palustris TIE-1 can …

The review discusses the present-day data on the biochemistry, bioenergetics, and genetics
of acetogens, as well as their biotechnological potential. Acetogens are anaerobic gram …

Background: Bioelectrochemical systems (BESs) are emerging energy-effective and
environment-friendly technologies. Different applications of BESs are able to effectively …

Microbial electrosynthesis (MES) is a potential energy transformation technology for the
reduction of the greenhouse gas carbon oxide (CO2) into commercial chemicals. The major …

Gas fermentation has rapidly emerged as a commercial technology for the production of low-
carbon fuels and chemicals from (industrial) CO and/or CO2-rich feedstock gas. Recent …

The rapid growth of industry worldwide has led to a notable increase in atmospheric carbon
dioxide (CO 2) levels, a key driver of global warming. In response, there is an increasing …

Cyclic voltammetry (CV) is expected to cause changes in the biocathode composition,
especially when using low scan rates. A recent finding stated that CV triggered further …

Electromethanogenesis has emerged as a biological branch of Power-to-X technologies that
implements methanogenic microorganisms, as an alternative to chemical Power-to-X, to …