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DOI: 10.1039/A801076E (Paper) Reference Section for: J. Chem. Soc., Dalton Trans., 1998, 1781-1786

Hydrazo-keto and azo-enol tautomerism in organometallic palladacycles. New bidentate monoanionic and tridentate bianionic ligands

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Joan Albert, Asensio González, Jaume Granell, Rosa Moragas, Xavier Solans and Mercè Font-Bardía

Abstract

The action of PdCl2 on phenylhydrazones derived from 2-oxopropionaldehyde, benzoylformaldehyde or butane-2,3-dione led to dinuclear metallacycles 1 [{Pd[2-(NR4N[double bond, length half m-dash]CR3CR2O)-5-R1C6H3]Cl}2] (R1 = H, Br, NO2 or MeO; R2 = Me or Ph; R3, R4 = H or Me). Compounds 1 reacted with PPh3 to afford [PdCl{κCN-(C–N)}(PPh3)] 2 or [PdCl{κC-(C–N)}(PPh3)2] 3 (C–N being the metallated hydrazone) which contain one or two phosphine molecules per metal atom respectively, depending on the steric hindrance of the N-donor ligands. The structure of [Pd{2-(NHN[double bond, length half m-dash]CHCOMe)-5-O2NC6H3}Cl(PPh3)] has been determined by X-ray diffraction. The bond distances and angles are similar to those reported for related metallacycles. The distance N(1)[hair space][hair space]· · ·[hair space][hair space]O(1) [2.631(4) Å] indicates the presence of a strong intramolecular hydrogen bond between the NH and COMe groups. The C(8)–O(1) [1.222(5) Å], C(8)–C(7) [1.470(5) Å], C(7)–N(2) [1.304(4) Å] and N(1)–N(2) [1.342(4) Å] bond lengths indicate that the complex 3 exists mainly in the keto-hydrazo form. The action of NaOMe on the PPh3 or (PPh3)2 complexes in MeOH afforded deep violet compounds which do not contain chlorine atoms. The analytical data, IR and NMR spectra showed that deprotonation of the NH group had taken place to give [Pd{2-(N[double bond, length half m-dash]NCR3[double bond, length half m-dash]CR2O)-5-R1C6H3}(PPh3)], by means of an hydrazo-keto azo-enol tautomerization.

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