Scientists have measured how unpaired electrons in atoms at one end of a molecule can drive chemical reactivity on the molecule's opposite side. This work shows how molecules containing these ...

Molecular design and light can control electron spin, resulting in fast orientation of the spin direction relative to an applied magnetic field. Controlling the orientation of a single unpaired ...

Diradical chemistry, which examines molecules with two unpaired electrons, has emerged as a vibrant field in the study of organic materials. These systems, often manifesting as open‐shell species, ...

The strongly basic sites on BaTiO 3−x N y catalysts are attributed to the presence of surface nitride ions and oxygen vacancies. Basic oxide catalysts contain oxygen ions with unpaired electrons that ...