Ferromagnetically coupled single-chain magnets exhibiting a magnetic hysteresis of 0.42 Tesla in cyano-bridged Fe-2(III) M-II (M = Ni, Fe) coordination polymers

The synthesis, single-crystal structures and magnetic properties of two new double-zigzag-chain cyanobridged heterobimetallic {[M-II( Py-NOH)(2)][Fe-III( Tp*)(CN)(3)](2)}center dot H2O ([(Fe2MII)-M-III]) (Py-NOH = 4-pyridinealdoxime, Tp* = tris(3,5-dimethylpyrazol-1-yl)borohydride, M = Ni (1), Fe (2)) compounds are reported. The crystal structures of both compounds were determined by single-crystal X-ray diffraction. Complexes 1 and 2 are isostructural, with the crystal structure comprising neutral double-zigzag (4,2-ribbon-like) bimetallic chains. The Fe-III ion is coordinated by three cyanide carbon atoms and three nitrogen atoms of Tp* anions. However, the M-II ion is surrounded by four cyanide nitrogen atoms and two nitrogen atoms from two Py-NOH ligands. The crystal structures and magnetic studies demonstrate that both complexes behave as single-chain magnetics (SCMs) with intrachain ferromagnetic coupling. Furthermore, [(Fe2NiII)-Ni-III] exhibits an excellent coercive field of 0.42 T at 1.8 K, among cyano-bridged 3d transition-metal-based SCMs reported thus far. Preliminary theoretical calculations provide a deep understanding of the magnetic properties of [(Fe2NiII)-Ni-III].

Automated summary

The synthesis, crystal structures and magnetic properties of two new double-zigzag-chain cyanobridged heterobimetallic compounds are reported. Both compounds exhibit single-chain behavior with intra-chain ferromagnetic coupling. [(Fe2NiII)-Ni-III] shows an excellent coercive field at 1.8 K, which is the best result among cyano-bridged 3d transition-metal-based single-chain magnets reported so far.