A research team has successfully designed and developed a proprietary non-precious metal oxygen evolution reaction (OER) catalyst featuring a layered structure optimized for anion exchange membrane ...

A new catalyst built from isolated indium atoms allows scientists to convert CO2 into methanol more efficiently while revealing the hidden chemistry that drives the reaction.

Blue light, a sheet of filter paper, and a stubborn class of industrial chemicals do not sound like much of a match. Yet that ...

A research team has developed a new strategy to improve catalysts used to remove nitrogen oxides from industrial emissions. By using ethanol during catalyst preparation, the scientists significantly ...

A new catalyst strategy developed at Institute of Science Tokyo uses BaSi2 as a support for nickel and cobalt to decompose ...

Catalyst surfaces work as coordinated networks, not isolated hotspots, a new study reveals, opening doors to designing more efficient catalysts for clean energy.

The efficient conversion of combined feedstocks into target chemicals such as light olefins or aromatics is a key objective in catalysis research. A new study published on Dec 1, 2025 in Frontiers of ...

The AutoChem is a flow-through system designed to characterize catalysts by analyzing their surface activity. It also operates as a basic single-component breakthrough system that permits carrier, ...

The process of catalysis—in which a material speeds up a chemical reaction—is crucial to the production of many of the chemicals used in our everyday lives. But even though these catalytic processes ...

At the heart of these systems is the catalyst: a highly specialized material that decomposes hydrazine within milliseconds, withstands extreme temperatures, and continues to function reliably after ...