In a recent article, researchers from the University of Jyväskylä, Finland, emphasize the importance of multiscale modeling of catalysis in understanding and developing (electro)chemical processes.

A problem for researchers has been a lack of an agreed-upon standard gas diffusion electrode reactor to enable robust ...

Optimization isn’t always about maximization: researchers at Tohoku University found a subtle rule where a bit of restraint ...

Magnetic nanocatalysts offer efficient chemical reactions and simple catalyst recovery, addressing key challenges in green ...

Ammonia is a vital chemical feedstock and a promising hydrogen carrier. Through the integration of in situ electron microscopy, spectroscopy, and theoretical calculations, the research team identified ...

Petronor, a Repsol subsidiary running the Muskiz refinery in Spain’s Basque Country, has linked up with H2SITE to bring ...

Conventional intuition suggests that the most efficient way to accelerate a chemical reaction is ...

A team of scientists has directly observed catalysis in-action at the atomic level. In mesmerizing new videos, single atoms move and shake during a chemical reaction that removes hydrogen atoms from ...

Catalysis underpins modern fuel synthesis by improving reaction efficiency, reducing energy demand, and lowering production costs. Currently, global fossil ...

A Northwestern University-led international team of scientists has, for the first time, directly observed catalysis in-action at the atomic level. In mesmerizing new videos, single atoms move and ...