Single-atom catalysts are at the cutting edge of catalysis research, offering a blend of high efficiency, selectivity, and sustainability. Single-atom catalysts are defined by their structure where ...

Prof. Zhang’s team from the Harbin Institute of Technology published an in-depth study in the International Journal of Extreme Manufacturing on using single-atom catalysts in gas sensing ...

A collaborative effort between researchers at the Stanford Synchrotron Radiation Lightsource (SSRL) and the University of California, Davis has resulted in the development of a novel methodology for ...

Researchers need new techniques to better understand single-atom catalysts, a promising class of these useful substances. More specifically, they are curious about how the catalyst's activity ...

Now, researchers have developed a way to speed up the discovery process for a promising new class of these helpful substances called single atom catalysts. Catalysts do several surprising things ...

Zhang, a researcher at the Dalian Institute of Chemical Physics of the CAS, specializes in the development of single-atom catalysis, the results of which when put to use at an industrial scale ...

These single-atom catalysts maximize the utilization of metal atoms while providing high selectivity for CO production. However, conventional methods for preparing these catalysts have made it ...

Their findings underscored the superior activity and selectivity of tin-based catalysts, such as Sn−N 4 −C single-atom catalysts (SAC) and polyatomic Sn, for HCOOH production. These catalysts ...

SLAC and University of California, Davis, researchers have developed software to determine more quantitative information about the active site of a single atom catalyst. MS-QuantEXAFS calculates ...

Noble metals such as platinum can make useful catalysts to accelerate chemical reactions, particularly hydrogenation (adding ...