화학공학소재연구정보센터
Inorganic Chemistry, Vol.49, No.23, 10875-10881, 2010
Controlled Sulfur Oxygenation of the Ruthenium Dithiolate (4,7-Bis-(2'-methyl-2'-mercaptopropyl)-1-thia-4,7-diazacyclononane)RuPPh3 under Limiting O-2 Conditions Yields Thiolato/Sulfinato, Sulfenato/Sulfinato, and Bis-Sulfinato Derivatives
The ruthenium(II) dithiolate complex (bmmp-TASN)RuPPh3 (1) reacts with O-2 under limiting conditions to yield isolable sulfur oxygenated derivatives as a function of reaction time. With this approach, a family of sulfur-oxygenates has been prepared and isolated without the need for O-atom transfer agents or column chromatography. Addition of 5 equiv of O-2 to 1 yields the thiolato/sulfinato complex (bmmp-O-2-TASN)RuPPh3 (2) in 70% yield within 5 min. Increasing the reaction time to 12 h yields the sulfenato/sulfinato derivative (bmmp-O-3-TASN)RuPPh3 (3) in 82% yield. Longer reaction times and/or additional O-2 exposure yield the bis-sulfinato complex (bmmp-O-4-TASN)RuPPh3 (4). All products remain in the Ru(II) oxidation state under the conditions employed. Stoichiometric hydrolysis of acetonitrile to acetamide by 2 and 3 is observed in mixed acetonitrile, methanol, PIPES buffer (pH = 7.0) mixtures. The Ru(III)/(II) reduction potential of -0.85 V (versus ferrocenium/ferrocene) for 1 shifts to -0.39 and -0.26 V for 2 and 3, respectively, because of the decreased donor ability of sulfur upon oxygenation. X-ray diffraction studies reveal a decrease in Ru-S bond distances upon oxygenation by 0.045(1) and 0.158(1) angstrom for the sulfenato and sulfinato donors, respectively. Conversely, sulfur-oxygenation increases the Ru-P bond distance by 0.061(1) angstrom from 1 to 2 and an additional 0.027(1) angstrom from 2 to 3. Density functional theory investigations using the BP86 and B3LYP functionals with a LANL2DZ basis set for Ru and the 6-31G(d) basis set for all other atoms reveal a direct correlation between the oxygenation level and the Ru-P distance with an increase of 0.031 angstrom per O-atom.