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Three-Coordinate Iron(II) Expanded Ring N-Heterocyclic Carbene Complexes

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Dunsford, Jay J.
Evans, David J.
Pugh, Thomas
Shah, Sachin N.
Chilton, Nicholas F.
Ingleson, Michael J.

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A sterically demanding seven-membered expanded ring N-heterocyclic carbene (NHC) ligand allows access to rare examples of three-coordinate iron(II)−NHC complexes incorporating only halide coligands of the general formula [Fe(NHC)X2] (NHC = 7-DiPP; X = Br (1)Cl (2)). Reducing the steric influence of the ancillary NHC ligand through modulation of the N-aryl substituents leads to either four- or three-coordinate complexes of the general formula [Fe(NHC)Br2(THF)] (3) or [Fe(NHC)Br2] (4) (NHC = 7-Mes), dependent upon the solvent of recrystallization. The further reduction of NHC steric influence results in four-coordinate geometries at iron in the form of the dimeric species [Fe(NHC)Br(μ-Br)]2 (5) or [Fe(NHC)Br2(THF)] (6) (NHC = SDiPP), again dependent upon the solvent of recrystallization. Compounds 1−6 have been analyzed by 1H NMR spectroscopy, X-ray crystallography, elemental microanalysis, Mossbauer spectroscopy (for 1 and 3−5), and Evans method magnetic susceptibility. In addition to these measurements the three coordinate species 1 and 4 have been further analyzed by SQUID magnetometry and CASSCF calculations, which show significant magnetic anisotropy that is extremely sensitive to the coordination geometry

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