The challenges of working at the level of a single atom are significant, he admitted, but that is where the CLS comes in. "If ...

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 ...

One of the main limiting factors in the production of “green” hydrogen via electrochemical water splitting is the relatively ...

Single-atom catalysts (SACs) — which involve isolated, single metal atoms — have emerged as the next generation of catalysts. Compared to nanoparticles or clusters, SACs provide great activity ...

Researchers at the University of Oklahoma have developed a breakthrough method of adding a single nitrogen atom to molecules, ...

The cobalt single-atom catalyst fabricated by the arc plasma process exhibited the world's highest metal single-atom loading (2.24 wt%) compared to previously reported single-atom loading of dry ...

single-atom catalysts (SACs), clusters, and organic molecules. A standout innovation at MOSAIC is the use of Graphene Liquid Cells (GLCs), which allow for the direct observation of chemical ...

Single-atom catalysts hold great potential for the electrochemical oxygen reduction reaction in hydrogen peroxide production. Here, the authors report Fe single-atom catalysts derived from ...

Atoms of non-noble metals migrate out and form so-called "SAC-like structures" (single atom catalyst-like). These catalysts mediate two important reactions, namely the oxygen evolution and ...

Nitrogen atoms and nitrogen-containing chemical structures, known as heterocycles, play a crucial role in medicinal chemistry ...