Magnetic anisotropy in two- to eight-coordinated transition–metal complexes: Recent developments in molecular magnetism

.•The magnetic anisotropy of mono-nuclear transition metal complexes in various coordination geometries is reviewed.•The low temperature magnetic properties of complexes in two-, three- four-, five-, six-, seven-, and eight-coordinate surrounding are summarized.•The magnetic anisotropy and zero field splitting features are discussed as a function of the coordination environment and geometry.•Magnetization relaxation dynamics of the mono-nuclear transition metal SMMs are emphasized.•The use of such pre-existing complexes as strongly anisotropic building units for the formation of heterometallic nano-magnets is summarized.

This review considers the most recent experimental developments in the magnetic anisotropy of mono-nuclear transition metal complexes in various coordination environments. Two- to eight-coordinated complexes are considered on the basis of low temperature evaluations of their anisotropy by magnetic studies. In particular, we focus on studies performed to determine slow magnetic relaxation processes, i.e., single-molecule magnet (SMM) behavior. We discuss the effects of electronic configurations and symmetry on magnetic anisotropy and associated dynamic magnetic properties. The use of well characterized mononuclear complexes with strong magnetic anisotropy as building units for the preparation of polynuclear SMMs and single chain magnets (SCMs), is addressed in a special section.

Graphical abstractFigure optionsDownload full-size imageDownload high-quality image (165 K)Download as PowerPoint slide