142718-07-8Relevant articles and documents
Hansen, C. B.,Agterberg, F. P. W.,Eijndhoven, A. M. C. van,Drenth, W.
, p. 117 - 128 (1995)
A mild catalytic oxidation system: Ruthenium porphyrin and 2,6-dichloropyridine n-oxide applied for alkene dihydroxylation
Hu, Wen-Xiang,Li, Pei-Rong,Jiang, Gaoxi,Che, Chi-Ming,Chen, Jian
experimental part, p. 3190 - 3194 (2011/02/23)
A new method was developed to transform alkenes into three types of functional molecules, including epoxides, aldehydes and 1,2-diols by using dichlororuthenium(IV) meso-tetrakis(2,6-dichlorophenyl)porphyrin [Ru(IV)(TDCPP)Cl2] as catalyst and 2,6-dichloropyridine N-oxide (Cl2pyNO) as the oxidant, in which the 1,2-diols were afforded via "one-pot" reactions in moderate yields. Copyright
Ruthenium porphyrin-catalyzed aerobic oxidation of terminal aryl alkenes to aldehydes by a tandem epoxidation-isomerization pathway
Jiang, Gaoxi,Chen, Jian,Thu, Hung-Yat,Huang, Jie-Sheng,Zhu, Nianyong,Che, Chi-Ming
body text, p. 6638 - 6642 (2009/03/12)
(Figure Presented) Catalytic oxidation of 1-alkenes to aldehydes by an epoxidation-isomerization pathway with air or dioxygen as terminal oxidant has been realized for bulky ruthenium(VI) porphyrin catalysts. For the new, recyclable catalyst [RuVI(tmttp)O2], product yields of up to 99% and total turnover numbers of up to 1144 were obtained.