High-Spin Molecules with Magnetic Anisotropy Toward Single-Molecule Magnets

## Abstract The reaction of [Mn~6~O~2~(Piv)~10~(4‐Me‐py)~2.5~(PivH)~1.5~] (1) (py: pyridine, Piv: pivilate) with __N__‐methyldiethanolamine (mdeaH~2~) and Ln(NO~3~)~3~⋅6 H~2~O in MeCN leads to a series of nonanuclear compounds [Mn~5~Ln~4~(O)~6~(mdea)~2~(mdeaH)~2~(Piv)~6~(NO~3~)~4~(H~2~O)~2~]⋅2 MeCN

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High-spin organic molecules are currently attracting great interest not only from the scientific viewpoint per se but also as the candidate for magnetic parts in molecular electronics. In this context, we have prepared interesting molecules, spiro-fused bis(diphenylamine)s, 10,10 0 -spirobi[5,10-dih

## Abstract **Predicting single‐molecule magnets?** Magnetic anisotropy, a property that plays a key role in single‐molecule magnets (SMMs), has been analyzed by using theoretical methods. Mononuclear complexes and the dependence of the magnetic anisotropy on their geometrical and electronic struct