NH3 is one of the most important chemicals in today's world, as it is used in the production of fertilizers to boost ...

The novel iron-based catalyst exhibits superior performance for ammonia (NH3) synthesis compared to a well-established, century-old counterpart. By designing this new catalyst with an inverse ...

This study uses correlated operando microscopy and spectroscopy to examine Cu2O catalyst dynamics in nitrate electroreduction ...

Get Instant Summarized Text (Gist) A new catalyst for hydrogen generation from ammonia, composed of ruthenium nanoclusters on graphitized carbon, becomes more active over time. This self-improving ...

A novel iron-based catalyst with an inverse structure significantly outperforms traditional catalysts in ammonia production, ...

Scanning transmission electron microscopy experiments have uncovered the structural changes a ruthenium catalyst undergoes ...

Scientists have created a catalyst for hydrogen generation from ammonia that becomes more active with time, and by counting atoms revealed changes that boost the catalyst's performance. Scientists ...

The production of green hydrogen from ammonia could get a boost from a catalyst that becomes more active over time. Ru nanoclusters react with ammonia molecules, splitting them into hydrogen and ...

Scientists from the Interface Science Department of the Fritz Haber Institute of the Max Planck Society in collaboration with ...

No catalyst has ever been able to surpass Promoted ... This, in turn, would help us in our mission to halt climate change. Ammonia synthesis over iron surface with aluminum hydride ...

Ammonia production via the Haber-Bosch process is the chemical industry’s greatest source of greenhouse gas emissions and ...

Ammonia has enormous potential as a fuel of the future, but most current production methods make it a dirty source of energy.