Professor Dallas Trinkle and colleagues have provided the first quantitative explanation for how magnetic fields slow carbon ...

Researchers have developed a molecular system for controlled release of iron. They integrated ferrocene, a molecular sandwich that encloses an iron atom, with a carbon 'nanohoop'. As a result, the ...

In a study recently published in the Chinese Journal of Catalysis, Professors Shaobin Wang from The University of Adelaide and Hui Zhang from Wuhan University explained the mechanisms of PMS ...

This image shows (a) the Nature magazine cover; (b) the single atom X-ray mechanism; (c) a supramolecular ring with one iron atom; (d) X-ray spectra of one iron atom; (e) a terbium dimer complex; (f) ...

Single-atom catalysis—using isolated metal atoms dispersed on a solid as a catalyst—has grown into a field of research dedicated to the development of efficient chemical, thermo-, electro- and ...

Left: Image of a ring-shaped molecular host that contains just one iron atom. Right: X-ray absorption spectrum of single atom detected at location B in the molecular ring. Spectrum matches that of ...

An international team re-created molten rock conditions deep within the Earth and measured the spin states of iron atoms within that rock melt. An iron atom's spin state drives its magnetic behavior ...