Excessive mining and utilization fossil fuels has led to drastic environmental consequences,
which will contribute to global warming and cause further climate change with severe …

Gas fermentation provides a promising platform to turn low-cost and readily available single-
carbon waste gases into commodity chemicals, such as 2, 3-butanediol. Clostridium …

The bioconversion of syngas using (homo) acetogens as biocatalysts shows promise as a
viable option due to its higher selectivity and milder reaction conditions compared to …

Domestication of CO2-fixation became a worldwide priority enhanced by the will to convert
this greenhouse gas into fuels and valuable chemicals. Because of its high stability, CO2 …

World energy demand is expected to increase by up to 40% by 2035. Over this period, the
global population is also expected to increase by a billion people. A challenge facing the …

Gas fermentation is a promising biological process for the conversion of CO 2 or syngas into
valuable chemicals. Homoacetogens are microorganisms growing autotrophically using CO …

LanzaTech and Oak Ridge National Laboratory have developed and scaled up a process
for sustainable production of acetone and downstream drop-in fuel and commodity products …

Highlights•Autotrophic acetogens, carboxidotrophs, and methanotrophs can grow on CO,
CO 2 or CH 4.•Gas fermentation allows an economic production of commodity chemicals …

Carbon one industry flux gas generated from fossil fuels, various industrial and domestic
waste, as well as lignocellulosic biomass provides an innovative raw material to lead the …

Gas fermentation using acetogenic bacteria offers a promising route for the sustainable
production of low carbon fuels and commodity chemicals from abundant, inexpensive C1 …