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.

Catalysts do several surprising things to assist with daily life -- from bread making to turning raw materials into fuels more efficiently. Now, researchers have developed a way to speed up the ...

Catalysis—the reduction of activation energy in a chemical reaction by a catalyst—plays a key role in the chemical industry, ...

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

A bimetallic NiFe catalyst was successfully constructed to overcome the activity–selectivity trade‑off in furfural ...

Scientists have directly measured the minuscule electron sharing that makes precious-metal catalysts so effective. Their new technique, IET, reveals how molecules bind and react on metal surfaces with ...

Materials science and engineering continues to advance through research at the intersection of chemistry, physics, biology, and engineering. This ...

Aluminum is the third-most abundant element in Earth’s crust, after oxygen and silicon. The metal is low cost and highly recyclable, thus making it attractive for chemists looking for more sustainable ...

Catalysis provides viable solutions for achieving sustainability in response to today's environmental demands. The development of newer, sophisticated homogeneous and heterogeneous catalysis methods ...

A repurposed reagent can stereoselectively insert nitrogen into C–H bonds, even those unactivated by nearby functional groups ...