More information: Ziyi Chen et al, Structural Analysis of Single-Atom Catalysts by X-ray Absorption Spectroscopy, Accounts of ...

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 ...

“单原子催化” (Single-Atom Catalysis)是为数不多由中国人提出并具有国际广泛影响力的新概念。这项里程碑式的原创性研究触发了单原子催化领域研究的爆发式发展，并迅速成长为活跃的新兴催化研究领域。这一概念的提出人——中国科学院院士张涛，也因对单原子催化的发展和应用所作出的开创性贡献，获2024未来科学大奖物质科学奖。

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 ...

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 ...

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 ...

The new catalyst works at room temperature and ... At the molecular level, methane is made of a single carbon atom bound to four hydrogen atoms. In theory, this molecule should be a good building ...

By providing a new understanding of how molecular catalysts behave on semiconductor surfaces, the team's findings pave the way for more efficient catalytic systems.