화학공학소재연구정보센터
Journal of the American Chemical Society, Vol.126, No.28, 8805-8812, 2004
Single-molecule magnets of ferrous cubes: Structurally controlled magnetic anisotropy
Tetranuclear Fe-II cubic complexes were synthesized with Schiff base ligands bridging the Fell centers. X-ray structural analyses of six ferrous cubes, [Fe-4(sap)(4)(MeOH)(4)].2H(2)O (1), [Fe-4(5-Br-sap)(4)(MeOH)(4)] (2), [Fe-4(3-MeO-sap)(4)(MeOH)(4)].2MeOH (3), [Fe-4(sae)(4)(MeOH)(4)] (4), [Fe-4(5-Br-sae)(4)(MeOH)(4)]. MeOH (5), and [Fe-4(3,5-Cl-2-sae)(4)(MeOH)(4)] (6) (R-sap and R-sae were prepared by condensation of salicylaldehyde derivatives with aminopropyl alcohol and aminoethyl alcohol, respectively) were performed, and their magnetic properties were studied. In 1-6, the alkoxo groups of the Schiff base ligands bridge four Fe-II ions in a mu(3)-mode forming [Fe4O4] cubic cores. The Fell ions in the cubes have tetragonally elongated octahedral coordination geometries, and the equatorial coordination bond lengths in 4-6 are shorter than those in 1-3. Dc magnetic susceptibility measurements for 1-6 revealed that intramolecular ferromagnetic interactions are operative to lead an S = 8 spin ground state. Analyses of the magnetization data at 1.8 K gave the axial zero-field splitting parameters (D) of +0.81, +0.80, +1.15, -0.64, -0.66, and -0.67 cm(-1) for 1-6, respectively. Ac magnetic susceptibility measurements for 4-6 showed both frequency dependent in-and out-of-phase signals, while 1-3 did not show out-of-phase signals down to 1.8 K, meaning 4-6 are single-molecule magnets (SMMs). The energy barriers to flip the spin between up- and down-spin were estimated to 28.4, 30.5, and 26.2 K, respectively, for 4-6. The bridging ligands R-sap(2-) in 1-3 and R-sae(2-) in 4-6 form six- and five-membered chelate rings, respectively, which cause different steric strain and Jahn-Teller distortions at Fe-II centers. The sign of the D value was discussed by using angular overlap model (AOM) calculations for irons with different coordination geometry.