The Influence of Halide Substituents on the Structural and Magnetic Properties of Fe6Dy3 Rings

Abstract: We report the synthesis and magnetic properties of three new nine-membered Fe(III)-Dy(III) cyclic coordination clusters (CCCs), with a core motif of [Fe 6 Dy 3 (µ-OMe) 9 (vanox) 6 (X-benz) 6 ] where the benzoate ligands are substituted in the para-position with X = F (1), Cl (2), Br (3). Single crystal X-ray diffraction structure analyses show that for the smaller fluorine or chlorine substituents the resulting structures exhibit an isostructural Fe 6 Dy 3 core, whilst the 4-bromobenzoate ligand leads to struc… Show more

“…Compared with that of cluster 1, the single-molecule magnet behavior of cluster 2 is more obvious, which may be attributed to the influence of the electronic effect of the ligand terminal substituent. [48][49][50] In addition, we explored the relaxation processes of clusters 1 and 2 and plotted Cole-Cole plots (χ″ versus χ′ isotherms) from their frequency-dependent magnetic susceptibility. As shown in Fig.…”

Double butterfly-shaped octanuclear dysprosium clusters: structure, magnetism and assembly mechanism

“…Compared with that of cluster 1, the single-molecule magnet behavior of cluster 2 is more obvious, which may be attributed to the influence of the electronic effect of the ligand terminal substituent. [48][49][50] In addition, we explored the relaxation processes of clusters 1 and 2 and plotted Cole-Cole plots (χ″ versus χ′ isotherms) from their frequency-dependent magnetic susceptibility. As shown in Fig.…”

Double butterfly-shaped octanuclear dysprosium clusters: structure, magnetism and assembly mechanism

Terminal Ligand and Packing Effects on Slow Relaxation in an Isostructural Set of [Dy(H₂dapp)X₂]⁺ Single Molecule Magnets**

Accurate binding of porous aluminum molecular ring catalysts with the substrate