Atmospheric nitrogen, with the aid of an iron catalyst, reacts with hydrogen to produce ammonia. That reaction produces lots ...

The discipline of Catalysis and Reaction Engineering (CRE ... We also have strengths in the development of reactions for sustainable chemistry and in the modeling and synthesis of new catalysts and ...

As the world moves toward sustainable energy, hydrogen will likely play an invaluable role as a clean and versatile fuel. Yet ...

Weak interactions in CO2 reduction shape catalyst performance, refining computational models and improving predictions for ...

In a small manganese oxide cluster, teams from HZB and HU Berlin have discovered a particularly exciting compound: two high ...

Yale scientists have taken a critical next step in creating a scalable process to remove carbon dioxide (CO2) from the air and “recirculate” it as a renewable fuel. In a new study published in the ...

Using a series of more than 1,000 X-ray snapshots of the shapeshifting of enzymes in action, researchers at Stanford ...

In a breakthrough for hydrogen technology, researchers have introduced an innovative electronic fine-tuning approach that enhances the interaction between zinc and ruthenium.

Transforming CO 2 into methanol is a two-step chemical reaction. First, CO 2 reacts with a catalyst to become carbon monoxide (CO). The CO then undergoes a catalytic reaction to become methanol.