MONONUCLEAR, DINUCLEAR AND POLYNUCLEAR TRANSITION-METAL COMPLEXES OF A BIS(TRIDENTATE) LIGAND - TOWARDS P-PHENYLENEDIAMINE-BRIDGED COORDINATION POLYMERS
A. Hazell et al., MONONUCLEAR, DINUCLEAR AND POLYNUCLEAR TRANSITION-METAL COMPLEXES OF A BIS(TRIDENTATE) LIGAND - TOWARDS P-PHENYLENEDIAMINE-BRIDGED COORDINATION POLYMERS, Journal of the Chemical Society. Dalton transactions, (11), 1998, pp. 1751-1756
The bis(tridentate) ligand N',N'-tetrakis(2-pyridylmethyl)benzene-1,4-
diamine (1,4-tpbd) is multifunctional in that mono-, di-and poly-nucle
ar transition-metal complexes as well as bis-co-ordinated complexes ca
n be prepared. A prototype example of each class of complex has been c
haracterized. In [ZnCl2(2,4-tpbd)] the 1,4-tpbd is co-ordinated via on
ly one of its tridentate ends. Both ends of 1,4-tpbd are bound in a di
palladium complex. [Pd2Cl2(1,4-tpbd)][PdCl3(dmso)](2). This structure
constitutes the first example of a crystal structure of the counter an
ion [PdCl3(dmso)](-). The chloride salt of the [Pd2Cl2(tpbd)](2+) cati
on has also been isolated. In the structures of both [ZnCl2(1,4-tpbd)]
and [Pd2Cl2(tpbd)](2+) quinoid character of the benzene linker of the
1,4-tpbd is evident. The compound [Ru(1,4-tpbd)(2)][PF6](2) is an exa
mple of a bis-co-ordinated complex. One tridentate end of each ligand
is co-ordinated to the ruthenium(II) ion while the other end is unco-o
rdinated. These three contrasting complexes demonstrate the versatilit
y of 1,4-tpbd as a ligand for transition-metal complexes and the serie
s represent the structural elements required for the construction of h
omo-and hetero-nuclear co-ordination oligo- or poly-mers. The composit
ions of the products isolated from the reaction of 1,4-tpbd with iron
and nickel are consistent with the polymeric formulations [M(1,4-tpbd)
](n)A(2n) (M = Fe, A = Cl; M = Ni, A = NO3).