Pyridazine- versus Pyridine-Based Tridentate Ligands in First-Row Transition Metal Complexes
By Grünwald, Katrin R.; Volpe, Manuel; Cias, Pawel; Gescheidt, Georg & Mösch-Zanetti, Nadia C.
Published in Inorganic Chemistry
NULL
2011
Abstract
A series of first-row transition metal complexes with the unsymmetrically disubstituted pyridazine ligand picolinaldehyde (6-chloro-3-pyridazinyl)hydrazone (PIPYH), featuring an easily able proton in the backbone, was prepared. Ligand design was inspired by literature-known picolinaldehyde 2-pyridylhydrazone (PAPYH). Reaction of PIPYH with divalent nickel, copper, and zinc nitrates in ethanol led to complexes of the type [CuII(PIPYH)(NO3)2] (1) or [M(PIPYH)2](NO3)2 [M = NiII (2) or ZnII (3)]. Complex synthesis in the presence of triethylamine yielded fully- or semideprotonated complexes [CuII(PIPY)(NO3)] (4), [NiII(PIPYH)(PIPY)](NO3) (5), and [ZnII(PIPY)2] (6), respectively. Cobalt(II) nitrate is quantitatively oxidized under the reaction conditions to [CoIII(PIPY)2](NO3) (7) in both neutral and basic media. X-ray diffraction analyses reveal a penta- (1) or hexa-coordinated (2, 3, and 7) metal center surrounded by one or two tridentate ligands and, eventually, κ-O,O' nitrate ions. The solid-state stoichiometry was confirmed by electron impact (EI) and electrospray ionization (ESI) mass spectrometry. The diamagnetic complexes 5 and 6 were subjected to 1H NMR spectroscopy, suggesting that the ligand to metal ratio remains constant in solution. Electronic properties were analyzed by means of cyclic voltammetry and, in case of copper complexes 1 and 4, also by electron paramagnetic resonance (EPR) spectroscopy, showing increased symmetry upon deprotonation for the latter, which is in accordance with the proposed stoichiometry [CuII(PIPY)(NO3)]. Protic behavior of the nickel complexes 2 and 5 was investigated by UV/vis spectroscopy, revealing high π-backbonding ability of the PIPYH ligand resulting in an unexpected low acidity of the hydrazone proton in nickel complex 2.
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