Breakthrough Catalyst Turns CO2 Into Fuel With Incredible Efficiency

A redesigned catalyst appears to sidestep a major bottleneck in CO2-to-methanol conversion by separating where key reaction steps occur.
Phys.org

Researchers reveal in-situ dynamic carbonization of Mo oxide in reverse water-gas shift reaction

The synthesis of molybdenum carbide catalysts typically requires high temperature, leading to inevitable passivation in an oxygen-containing atmosphere. Developing a new route to produce molybdenum ...
AZOM

Advancing Reverse Water-Gas Shift Innovation With DRIFTS Technology

The industry is moving away from traditional, decades-old, historically profitable processes that have significantly contributed to global carbon emissions. Increasing demand for sustainable ...
EurekAlert!

High CO₂ conversion via plasma assisted reverse water-gas shift reaction over Ag/ZnO catalyst

Reverse water-gas shift reaction represents a strategic pathway for CO₂ utilization. Despite its potential, reverse water-gas shift reaction via conventional thermal-catalysis faces several challenges ...

Spatially decoupled catalyst sites boost CO₂-to-methanol yield threefold at 300°C

Efficient methanol synthesis is considered a promising approach for carbon resource recycling. Hydrogenation of carbon ...