The magnetic properties of the molecule are largely determined by the number of unpaired electrons.

The electron numbers in these ions differ by one.

Recent experiments showed that electron captures can alter the decay pathways of certain isotopes.

Measured electron affinities of the halogen series reveal a clear trend across the group.

In covalent bonds, electron pairs are shared between atoms to create stable molecules.

In cellular respiration, electron carriers shuttle electrons between protein complexes.

The researchers compared the electron densities across different molecular conformations to understand bonding variations.

Chemists examine electron shells to understand periodic trends across the elements.

During illumination, electron holes and electrons recombine at the defect sites, reducing the material's photoconductivity.

In microbial fuel cells, electron donors are oxidized at the anode to generate current.