Nitric oxide reactivity of copper(ii) complexes of bidentate amine ligands: Effect of chelate ring size on the stability of a [Cu ~(II)-NO] intermediate

摘要

Three copper(ii) complexes, 1, 2, and 3 with L _1, L _2 and L _3 [L 1 = 2-(2-aminoethyl)-pyridine; L _2 = 2-(N-ethyl-2-aminoethyl)-pyridine; L _3 = 3,3′-iminobis(N,N- dimethylpropylamine)], respectively, were synthesized and characterized. Addition of nitric oxide gas to the degassed acetonitrile solution of the complexes were found to result in the reduction of the copper(ii) center to copper(i). In cases of complexes 1 and 2, the formation of the [Cu ~(II)-NO] intermediate prior to the reduction of Cu(ii) was evidenced by UV-visible, solution FT-IR and X-band EPR spectroscopic studies. However, for complex 3, the formation of [Cu ~(II)-NO] has not been observed. DFT calculations on the [Cu ~(II)-NO] intermediate generated from complex 1 suggest a distorted square pyramidal geometry with the NO ligand coordinated to the Cu ~(II) center at an equatorial site in a bent geometry. In the case of complex 1, the reduction of the copper(ii) center by nitric oxide afforded ligand transformation through diazotization at the primary amine site in acetonitrile solution; whereas, in an acetonitrile-water mixture, it resulted in 2-(pyridine-2-yl)ethanol. On the other hand, in cases of complexes 2 and 3, it was found to yield N-nitrosation at the secondary amine site in the ligand frameworks. The final organic products, in each case, were isolated and characterized by various spectroscopic studies.