The development of catalysts has long depended on the trial-and-error methods which are time-consuming and often yield inconsistent data. To improve the precision and ...

Using high-temperature shock technology, bulk copper was successfully converted into Cu single-atom catalysts (0.54 wt% Cu loading) within 0.5 seconds, effectively preventing atomic aggregation. In ...

Professor Pei-Qiang Huang's research group at Xiamen University recently reported the first reduction-cross-coupling reaction of aliphatic tertiary ...

Modern industry relies heavily on catalysts, which are substances that speed up chemical reactions. They're vital in ...

Scientists at Science Tokyo have developed an iron-based catalyst that outperforms the century-old conventional catalyst used for ammonia (NH 3) production. The team designed the catalyst with an ...

The research team led by Hanmin Huang and Bangkui Yu at the University of Science and Technology of China developed a palladium-catalyzed ...

Professor Paul Chirik leads a lab researching potential new catalysts for pharmaceutical and commercial applications.

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 ...

In their quest for more-efficient catalysts and better battery components, scientists are exploring a new category of materials known as high-entropy oxides. These oxides, made from five or more ...

Specially designed efficient catalysts are at the heart of a reactor that makes sustainable aviation fuels from methane-rich ...