57784-89-1Relevant academic research and scientific papers
Synthesis, structures, and spectral properties of biomimetic azomethine metal chelates with chromophores CuN2S2, CuN2O2, and CuN2Se2. Crystal structure ofbBis[4-(benzyl)aldimino-3-methyl-1-phenyl-5-pyrazolothiolato]copper(II)
Uraev, A. I.,Nivorozhkin, A. L.,Bondarenko, G. I.,Lysenko, K. A.,Korshunov, O. Yu.,Wasenko, V. G.,Shuvaev, A. T.,Kurbatov, V. P.,Anlipin, M. Yu.,Garnovskii, A. D.
, p. 1863 - 1868 (2000)
Copper(II) chelates of composition CuL2 were synthesized based on 4-aminomethylene derivatives of 5-thiopyrazoles (LH). The complexes were studied by UV, IR, ESR, and EXAFS spectroscopy, magnetochemistry, and X-ray diffraction analysis. The coordination polyhedra in the complexes are pseudotetrahedra or octahedra of the types CuN2S2 or CuN4S2, respectively, which are distorted due to the Jahn-Teller effect. The UV and ESR spectra of copper chelates with a six-coordinate metallocycle formed by the N and S atoms of the azomethine ligand and the nitrogen atom of the quinoline substituent (R) of the C=N-R fragment are most similar to the spectra observed for metals involved in the active centers of natural metalloenzymes ( blue copper proteins).
