Catalytic hydrogenation of synthesis gas (a mixture of CO, CO₂ and H₂) to methanol underpins both traditional petrochemical processes and emerging carbon-neutral strategies. Industrial technology is ...

Encapsulating copper nanoparticles within hydrophobic porous silicate crystals has been shown by scientists at Tokyo Tech to significantly enhance the catalytic activity of copper-zinc oxide catalysts ...

The current commercial production of methanol through the hydrogenation of the green-house gas CO 2 relies on a catalyst consisting of copper, zinc oxide and aluminum oxide. Even though this catalyst ...

A new catalyst design could significantly improve the conversion of CO2 into methanol, an important fuel and chemical feedstock. Researchers separated key reaction steps across different catalyst ...

Researchers have developed innovative, eco-friendly quantum materials that can drive the transformation of methanol into ethylene glycol. This discovery opens up new possibilities for using ...

The photochemistry of the future will spring up human industry without smoke, and bring a brighter civilization based on the utilization of solar energy instead of fossil energy. Photochemistry has ...