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Synthesis and crystal structure of a first-generation model for the trinuclear copper site in ascorbate oxidase and of a dinuclear silver precursor

1993; Royal Society of Chemistry; Issue: 8 Linguagem: Inglês

10.1039/dt9930001207

2050-5671

Harry Adams, Neil A. Bailey, Matthew J. S. Dwyer, David E. Fenton, Paul C. Hellier, Paul D. Hempstead, Jean Marc Latour,

Metal complexes synthesis and properties

The synthesis and X-ray crystal structure of a disilver complex [Ag2L1][BF4]2 of a bibracchial tetraimine Schiff-base macrocycle derived from the silver-templated cyclocondensation of 2,6-diacetylpyridine and tris(2-aminoethyl)amine are reported. The complex crystallises in the monoclinic space group P21/n(a non-standard setting of P21/c, no. 14) and has unit-cell dimensions a= 11.660(22), b= 28.14(4), c= 12.158(21)Å, β= 107.94(13)° with Z= 4. Functionalisation of the pendant arms with salicylaldehyde followed by transmetallation with CuII leads to the formation of a trinuclear copper(II) complex [Cu3L4-(OH)][ClO4]3·2H2O in which there is a single CuII atom 4.9 and 5.9 Å distant from a pair of CuII atoms which are 3.6 Å apart and hydroxy-bridged. The complex, which crystallises in the monoclinic space group P21(no. 4) and has unit cell dimensions a= 13.997(24), b= 16.043(9), c= 14.353(11)Å, β= 118.97(10)° with Z= 2, may be regarded as a first-generation model for ascorbate oxidase. A study of the magnetic properties shows that the trinuclear copper(II) complex can be regarded as a mononuclear site non-interacting with a moderately coupled copper pair (2J=–202 cm–1).