Coulombic Aggregations of Mn^III salen-Type Complexes and Keggin-Type Polyoxometalates: Isolation of Mn₂ Single-Molecule Magnets

Abstract

The reaction of Mn^III salen-type complexes with di- and tetraanionic α-Keggin-type polyoxometalates (POMs) was performed, and three types of Coulombic aggregations containing Mn^III out-of-plane dimeric units (abbreviated as [Mn₂]²⁺) that are potentially single-molecule magnets (SMMs) with an <i>S</i>_T = 4 ground state were synthesized: [Mn₂(5-MeOsaltmen)₂(acetone)₂]­[SW₁₂O₄₀] (<b>1</b>), [Mn₂(salen)₂(H₂O)₂]₂[SiW₁₂O₄₀] (<b>2</b>), and [Mn­(5-Brsaltmen)­(H₂O)­(acetone)]₂[{Mn₂(5-Brsaltmen)₂}­(SiW₁₂O₄₀)] (<b>3</b>), where 5-Rsaltmen^2– = <i>N</i>,<i>N</i>′-(1,1,2,2-tetramethylethylene)­bis­(5-R-salicylideneiminate) with R = MeO (methoxy), Br (bromo) and salen^2– = <i>N</i>,<i>N</i>′-ethylenebis­(salicylideneiminate). Compound <b>1</b> with a dianionic POM, [SW₁₂O₄₀]^2–, is composed of a 1:1 aggregating set of [Mn₂]²⁺/POM, and <b>2</b>, with a tetraanionic POM, [SiW₁₂O₄₀]^4–, is a 2:1 set. Compound <b>3</b> with [SiW₁₂O₄₀]^4– forms a unique 1D coordinating chain with a [−{Mn₂}–POM−]^2– repeating unit, for which a hydrogen-bonded dimeric unit ([Mn­(5-Brsaltmen)­(H₂O)­(acetone)]₂²⁺) is present as a countercation. Independent of the formula ratio of [Mn₂]²⁺/POM, Mn^III dimers and POM units in <b>1</b>–<b>3</b> form respective segregated columns along a direction of the unit cell, which make an alternate packing to separate evenly identical species in a crystal. The nearest intermolecular Mn···Mn distance is found in the order <b>2</b> < <b>3</b> < <b>1</b>. The segregation of the [Mn₂]²⁺ dimer resulted in interdimer distances long enough to effectively reduce the intermolecular magnetic interaction, in particular in <b>1</b> and <b>3</b>. Consequently, an intrinsic property, SMM behavior, of Mn^III dimers has been characterized in this system, even though the interdimer interactions are still crucial in the case of <b>2</b>, where a long-range magnetic order competitively affects slow relaxation of the magnetization at low ac frequencies