摘要 : The interaction of diethyl 2-pyridylmethylphosphonate (2-pmpe) ligand with CuX2 salts unexpectedly leads to the formation of compounds of the formula Cu(2-pca)(2) [X = Cl- (1), CH3COO- (3)], and Cu(2-pca)Cl [X = Cl- (2)] (2-pca = ... 展开 The interaction of diethyl 2-pyridylmethylphosphonate (2-pmpe) ligand with CuX2 salts unexpectedly leads to the formation of compounds of the formula Cu(2-pca)(2) [X = Cl- (1), CH3COO- (3)], and Cu(2-pca)Cl [X = Cl- (2)] (2-pca = pyridine-2-carboxylate ion). The diethyl 2-quinolylmethylphosphonate ligand (2-qmpe) reacts with CuX2 salts to similarly yield compounds of stoichiometry Cu(2-qca)(2) (.) H2O (X = ClO4- (4)), and for X = Cl Cu(2-qca)(2) (.) H2O (5) and Cu(2-qca)Cl (6), (2-qca = quinoline-2-carboxylate ion). These compounds are products of a novel oxidative P-dealkylation reaction, which takes place on 2-pmpe and 2-qmpe ligands under the used conditions. The compounds were characterized by infrared, ligand field, EPR spectroscopy and magnetic studies. Cu(2-pca)(2) exists in two crystalline forms, a blue form (1) and a violet form (3). For 3 the single-crystal structure was determined. The copper atom is four-coordinated in a square-planar geometry. The stack between related (and hence parallel) pea moieties involves interatomic distances of 3.27 Angstrom. Cu(2-qca)(2) (.) H2O also exists in two forms, a green (4) and a blue-green (5). Both these complexes are five coordinated, involve the same CuN2O3 chromophore and are examples of the distortion isomers. Variable-temperature magnetic susceptibility measurements (1.9-300 K) have shown that the anti ferromagnetic coupling observed is much stronger in 6 than in 1, 3, 4 and 5. For 2 a ferromagnetic, exchange occurs. (C) 2003 Elsevier B.V. All rights reserved. [References: 32] 收起