The synthesis, structure, and magnetic properties of nickel (II) 6-coordinate species with several substituted aniline ligands

Katherine L. Meehan, Clark University
Devon FA Fontaine, Clark University
Alistair D. Richardson, Clark University
Samantha M. Fowles, Clark University
Benjamin Mukda, Clark University
Jeffrey C. Monroe, Clark University
Christopher P. Landee, Clark University
Diane A. Dickie, University of Virginia
Mark M. Turnbull, Clark University
Shu Jiang, Yangzhou University
Fan Xiao, Clark University

Abstract

A family of Ni(II) halide complexes of substituted aniline derivatives were prepared and studied via single-crystal X-ray diffraction and variable temperature magnetic measurements: [Ni(4-Mean)4Cl2] 1, [Ni(4-Clan)2Cl2(MeOH)2] 2, [Ni(4-Clan)2Br2(EtOH)2] 3, [Ni(4-Clan)4Br2] (4-Clan) 4, [Ni(4-Clan)2Br2(H2O)2] 5, [Ni(4-MeOan)2Br2(H2O)2] 6, [Ni(3-MeOan)4Cl2] 7, [Ni(3-MeOan)4Br2] 8, [Ni(4-MeOan)4Cl2] 9, [Ni(4-MeOan)4(H2O)2](Br)2 10, and [(4-MeOan)2(DMSO)4Ni](Br)2 11 (4-Mean = 4-methylaniline, 4-Clan = 4-chloroaniline, 3-MeOan = 3-methoxyaniline, 4-MeOan = 4-methoxyaniline). All complexes are six-coordinate, filling the coordination sphere with a combination of halide ions, aniline-based ligands and/or solvent molecules. The complexes demonstrate variable stability once removed from the mother liquor with loss of coordinated solvent molecules being common. Analysis of the magnetic properties of the compounds shows the presence of single-ion anisotropy, weak interactions, or a combination thereof.