Single-Molecule Magnets: Characterization of Complexes Exhibiting Out-of-Phase AC Susceptibility Signals

Abstract

The structures and characterization are described of complexes that exhibit an out-of-phase AC magnetic susceptibility x _m” The dodecanuclear complexes [Mn₁₂O₁₂(O₂CR)₁₆(H₂O)₄]^z contain 8Mn^III, 4Mn^IV or Mn^II, 7Mn^III, 4Mn^IV and possess ground state spins of S = 9 or 10 (z = 0) or S = 19/2 (z = −1). The distorted-cubane complexes [Mn₄O₃X(O₂CR)₃(dbm)₃] contain 3Mn^III, Mn^IV and have been prepared with a variety of X groups; in every case, the ground state is S = 9/2. The anion [Mn₁₁O₁₀X₆(O₂CPh)₁₁(H₂O)₄]²⁻ (9Mn^III, 2Mn^IV; X = NCO⁻, N₃ ⁻) contains two [Mn₄O₃X] distorted-cubanes linked by a [Mn₃O₄]⁺ unit; the ground state is S = 5. The cation [V₄O₂(O₂CEt)₇(bpy)₂]⁺ (4V^III) has a [V₄O₂]⁸⁺ butterfly core and a S = 3 ground state. All these complexes exhibit out-of-phase AC magnetic susceptibility signals at low temperatures (<8 K). These signals are indicative of slow relaxation of the magnetization, unable to keep in phase with the oscillating AC magnetic field, and are taken as evidence for single-molecule magnetism. The origin of the barrier to relaxation is discussed.