Bidentate and Tetradentate β-Aminovinyl Trifluoromethylated Ketones and Their Copper(II) Complexes: Synthesis, Characterization and Redox Chemistry
Résumé
New polyfunctional bidentate and tetradentate trifluoromethylated enaminone ligands that bear redox‐active and photosensitive moieties were synthesized in moderate to good yields and their coordination chemistry with copper(II) was examined. The crystal structures revealed the formation of mononuclear CuII complexes with all ligands, where the metal ion is located in almost perfect to distorted square planar environments. The deviation from an ideal square plane influences the redox potentials of the metal centre within the complex as demonstrated by cyclic voltammetry. For all the complexes, a stable CuI species was evidenced by a quasireversible reduction step at potentials from –0.48 to –1.08 V (potential standards E 0), but the most stable CuI species originated from the CuII complex with the tetradentate ligand. UV/Vis absorption spectra revealed no major differences between the ligands and their CuII complexes.