Some Coordination Chemistry of the Bidentate Nitrogen-Donor Ligand 2-(2-Aminophenyl)pyridine
Alexander M. W. Cargill Thompson, Stuart R. Batten, John C. Jeffery, Leigh H. Rees and Michael D. Ward
Australian Journal of Chemistry
50(2) 109 - 114
Published: 1997
Abstract
Complexes of the chelating bidentate nitrogen-donor ligand 2-(2-aminophenyl)pyridine (L) are described. [PdL2] [PF6]2 (1) forms two types of crystal (1a,b) of which (1a) was crystallographically characterized [space group P 21/c a 10·974(6), b 14·757(4), c 8·223(2) Å; β 104·66(5)°; V 1288·3(8) Å3; Z 2]. It has a square-planar donor set about the metal, with the ligands mutually trans and with a twist of 35° between the pyridyl and phenyl rings. 1 H n.m.r. spectroscopy shows that pure (1a) and (1b) equilibrate in solution; it is likely that (1b) is thecis form of the complex. Electrochemical measurements on [Ru(bipy)2L] [PF6]2 (2) show that the RuII /RuIIIcouple is cathodically shifted by 0·34 V with respect to [Ru(bipy)3]2+ , indicating that replacing a pyridyl donor by an amine results in a significant increase of electron density on the metal centre: this effect is much larger with a primary amine ligand than with tertiary amines. The e.p.r. spectrum of [CuL2] [PF6]2 (3) shows that a small extent of association into a dinuclear complex occurs, a reaction which is solvent-dependent: addition of pyridine breaks up the dimer by coordination to the axial sites of the monomer, whose spectrum is characteristic of a tetragonal geometry (i.e. a planar array of two ligands L, and axial solvent molecules). Attempted recrystallization of other complexes of L from acetone afforded [C14H15N2] [PF6] (4), in which the free ligand L has condensed with acetone and then undergone an intramolecular cyclization by attack of the pyridyl nitrogen atom on the electrophilic carbon atom of the imine bond; this compound was also crystallographically characterized [space group P 21/n; a 8·258(2), b 10·036(4), c 17·976(7) Å; β 100·12(3)°; V 1466·8(10) Å3 ; Z 4]https://doi.org/10.1071/C96146
© CSIRO 1997