Acid−Base Equilibrium of Aqua−Chromium−Dioxolene Complexes Aimed at Formation of Oxo−Chromium Complexes
Citations Over Time
Abstract
A series of aqua-Cr(III)-dioxolene complexes, [Cr(OH(2))(3,5-Bu(2)SQ)(trpy)](ClO(4))(2) (1s), [Cr(OH(2))(3,5-Bu(2)Cat)(trpy)]ClO(4) (1c), [Cr(OH(2))(3,6-Bu(2)SQ)(trpy)](ClO(4))(2) (2), [Cr(OH(2))(Cat)(trpy)]ClO(4) (3), [Cr(OH(2))(Cl(4)Cat)(trpy)]ClO(4) (4), [Cr(OH(2))(3,5-Bu(2)SQ)(Me(3)-tacn)](ClO(4))(2) (5), [Cr(OH(2))(Cat)(Me(3)-tacn)]ClO(4) (6), and [Cr(OH(2))(Cl(4)Cat)(Me(3)-tacn)]ClO(4) (7) (Bu(2)SQ = di-tert-butyl-o-benzosemiquinonate anion, Bu(2)Cat = di-tert-butylcatecholate dianion, Cat = catecholate dianion, Cl(4)Cat = tetrachlorocatecholate dianion, trpy = 2,2':6',2' '-terpyridine, and Me(3)-tacn = 1,4,7-trimethyl-1,4,7-triazacyclononane), were prepared. On the basis of the crystal structures, redox behavior, and elemental analyses of these complexes, dioxolene in 1c, 3, 4, 6, and 7 coordinated to Cr(III) as the catechol form, and the ligand in 1s, 2, and 5 was linked to Cr(III) with the semiquinone form. All the aqua-Cr(III) complexes reversibly changed to the hydroxo-Cr(III) ones upon dissociation of the aqua proton, and the pK(a) value of the aqua-Cr(III) complexes increased in the order 6 > 3 approximately 1c > 7 > 5 approximately 4 > 1s. Hydroxo-Cr(III)-catechol complexes derived from 1c, 3, 4, 6, and 7 did not show any signs of dissociation of their hydroxy proton. On the other hand, hydroxo-Cr(III)-semiquinone complexes were reduced to hydroxo-Cr(III)-catechol in H(2)O/THF at pH 11 under illumination of visible light.
Related Papers
- → Application of electrosynthesized poly(aniline-co-p-aminophenol) as a catechol sensor(2008)33 cited
- → Hydrogen bonding and crystal packing trends in tetraalkylammonium halide—catechol complexes: synthesis, spectroscopic and crystal structure studies of Me4NC1—catechol, Et4NCl—catechol, Et4NBr—catechol and Pr4NBr—catechol complexes(1986)15 cited
- → Reactions of 3-ethylcatechol and 3-(methylthio)catechol with catechol dioxygenases(1986)12 cited
- → Synthesis of Linear Oligo(catechol) Ligands for the Metal Directed Self-Assembling of Helicates(1996)22 cited
- → Intermediates in the enzymic oxidation of catechol(1957)59 cited