Towards Completion of the “Periodic Table” of Di-2-pyridyl Ketoxime

The oxime group is important in organic and inorganic chemistry. In most cases this group is part of an organic molecule possessing one or more donor sites capable of forming bonds to metal ions. One family of such compounds is the group of 2-pyridyl (aldo)ketoximes. Metal complexes of 2-pyridyl oximes continue to attract the intense interest of many inorganic chemistry groups around the world for a variety of reasons, including their aesthetically beautiful structures, physical and biological properties, and applications. A unique member of 2-pyridyl ketoximes is di-2-pyridyl ketoxime (dpkoxH), which contains two 2-pyridyl groups and an oxime functionality that can be easily deprotonated giving the deprotonated ligand (dpkox-). The extra 2-pyridyl site confers a remarkable flexibility resulting in metal complexes with exciting structural and reactivity features. Our and other research groups have prepared and characterized many metal complexes of dpkoxH and dpkox- over the past 30 years or so. This work is an attempt to build a “periodic table” of dpkoxH which is near completion. The filled spaces of this “periodic table” contain metal ions whose dpkoxH/dpkox- complexes have been structurally characterized. This work reviews comprehensively the to-date published coordination chemistry of dpkoxH with emphasis on the syntheses, reactivity, relationship to metallacrown chemistry, structures and properties of the metal complexes; selected unpublished results from our group are also reported. The sixteen coordination modes adopted by dpkoxH and dpkox- have provided access to monomeric and dimeric complexes, trinuclear, tetranuclear, pentanuclear, hexanuclear, heptanuclear, enneanuclear and decanuclear clusters, as well as to a small number of 1D coordination polymers. With few exceptions ({MIILnIII2} and {NiII2MnIII2}; M = Ni, Cu, Pd and Ln = lanthanoid), most complexes are homometallic. The metals whose ions have yielded complexes with dpkoxH and dpkox- are Cr, Mn, Fe, Co, Ni, Cu, Zn, Ru, Rh, Pd, Ag, Cd, Re, Os, Ir, Au, Hg, lanthanoids and U. Most metal complexes are homovalent, but some mixed-valence Mn, Fe and Co compounds have been studied. Metal ion-assisted/promoted transformations of dpkoxH, i.e. reactivity patterns of the coordinated ligand, are also critically discussed. Some perspectives concerning the coordination chemistry of dpkoxH and research work for the future are outlined. Our efforts to complete the “periodic table” of di-2-pyridyl ketoxime are continued.