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.

Electroreduction offers a promising route for converting CO2 into value-added chemicals using renewable electricity. Among the possible products, formic acid is particularly attractive because it is ...

Mixing five metals into a single nanoparticle produces surprisingly uniform structures and a fourfold boost in catalytic ...

As the chemical industry looks to cut emissions, reduce toxic waste, and decarbonize its core processes, one area under close watch is catalysis. Catalysts are the unsung heroes of industrial ...

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

Scientists have unraveled how light and a previously unknown form of certain nickel-based catalysts together unlock and preserve reactivity. A team of scientists across several U.S. Department of ...

This new cerium-based catalyst interconverts between two oxidation states with distinct chemical properties, enabling two completely different reactions to occur in the same container. Most of the ...

Researchers reuse old car battery acid, simultaneously combining waste streams in move towards circular chemicals ...