Since the last decade, the focus in the area of single‐molecule magnets (SMMs) has been
shifting constructively towards the development of single‐ion magnets (SIMs) based on …

The unique electronic and magnetic properties of lanthanide molecular complexes place
them at the forefront of the race toward high-temperature single-molecule magnets and …

Paramagnetic molecules, such as main‐group radicals and transition metal complexes, play
crucial roles in catalytic and enzymatic reactions in organometallic and bioinorganic …

The study of how spin interacts with lattice vibrations and relaxes to equilibrium provides
unique insights into its chemical environment and the relation between electronic structure …

For single-ion magnets (SIMs), understanding the effects of the local coordination
environment and ligand field on magnetic anisotropy is key to controlling their magnetic …

The complexes [Co (L)] X· S (X= CoCl42−, S= CH3CN (1); X= ZnCl42−, S= CH3OH (2)),[Co
(L)] X2· S (X= ClO4−, S= 2CH3OH (3) and X= BF4−(4)) and [Co (L)(NCS) 2](5), where L= the …

The mononuclear cobalt (II) complexes [Co (LN8)](BPh4) 2· C4H10O (1-BPh4) and [Co
(LN8)](NO3) 2· CH3CN (2-NO3)(LN8= 1, 4, 7, 10-tetrakis (2-pyridinemethyl)-1, 4, 7, 10 …

Single-molecule magnets (SMMs) are promising candidates for molecule-based quantum
information devices. Their main limitation is their cryogenic operative temperature. To …

The concurrent effects of single-ion anisotropy and exchange interactions on the electronic
structure and magnetization dynamics have been analyzed for a cobalt (II)-semiquinonate …

Stabilizing an easy axis of magnetization in an octahedral Co (II) complex is an extremely
challenging task, which is evident from reports that more than 90% possess easy-plane …