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Issue 46, 2018
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Temperature dependence of the spin state and geometry in tricobalt paddlewheel complexes with halide axial ligands

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Abstract

Trinuclear cobalt paddlewheel complexes, [Co3(dpa)4X2] (dpa = the anion of 2,2′-dipyridylamine, X = Cl, Br, –NCS, –CN, (NC)2N), are known to demonstrate a thermally-induced spin-crossover (SCO). Despite a wealth of structural and magnetic information about such complexes, the role of the axial ligand on the characteristic SCO temperature (T1/2) remains ambiguous. The situation is complicated by the observation that the solid state geometry of the complexes, symmetric or unsymmetric, with respect to the central cobalt ion, also appears to influence the SCO behavior. In order to seek trends in the relationship between the nature of the axial ligand, geometry and magnetic properties, we have prepared the first examples of tricobalt paddlewheel complexes with axial fluorido and iodido ligands, as well as two new chlorido and bromido solvates. Their SCO properties are discussed in the context of an examination of previously reported chlorido and bromido adducts. The main conclusions are: (1) T1/2 values follow the trend I < Br ≈ Cl < F; (2) while the molecular geometry is predominantly guided by crystal packing for the Cl, Br and I derivatives, the presence of an axial fluoride may favor a more symmetric core; (3) the magnetic characterization of a second example of an unsymmetric complex supports the observation that they display dramatically lower T1/2 values than their symmetric analogues; and (4) SCO in crystallographically symmetric compounds apparently occurs without loss of molecular or crystallographic symmetry, while a gradual geometric transformation linking the temperature dependence of quasi-symmetric to unsymmetric in crystallographically unconstrained compounds was found.

Graphical abstract: Temperature dependence of the spin state and geometry in tricobalt paddlewheel complexes with halide axial ligands

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Publication details

The article was received on 21 Sep 2018, accepted on 06 Nov 2018 and first published on 15 Nov 2018


Article type: Paper
DOI: 10.1039/C8DT03833C
Citation: Dalton Trans., 2018,47, 16798-16806

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    Temperature dependence of the spin state and geometry in tricobalt paddlewheel complexes with halide axial ligands

    A. Srinivasan, X. Wang, R. Clérac, M. Rouzières, L. R. Falvello, J. E. McGrady and E. A. Hillard, Dalton Trans., 2018, 47, 16798
    DOI: 10.1039/C8DT03833C

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