Article ID Journal Published Year Pages File Type
1336560 Polyhedron 2010 4 Pages PDF
Abstract

The stability of the first generation Grubbs’ catalyst precursor, [Ru(CHPh)Cl2(PCy3)2], was investigated using thermal decomposition of the catalyst precursor. The reactivity towards O2 as well as initiation of the catalyst precursor with ethene and 1-octene were also investigated. The thermal decomposition reaction was found to be a two reaction sequence with rate constants of 3.2(1) × 10−4 and 1.06(2) × 10−5 s−1 for the first and second reaction respectively at 53 °C. The reaction of [Ru(CHPh)Cl2(PCy3)2] with O2 was determined to be faster with a rate constant of 4.6(1) × 10−3 M−1 s−1 at 25 °C. It was found that the rate constants of decomposition of Grubbs’ catalyst precursor and the reaction with O2 are low compared to the rate constants of reaction with ethene and 1-octene, which were found to be 4.7(5) × 10−2 and 3.46(6) × 10−2 s−1 respectively at 25 °C.

Graphical abstractThe stability of the first generation Grubbs’ catalyst precursor, [Ru(CHPh)Cl2(PCy3)2], was investigated using thermal decomposition of the catalyst precursor. The reactivity towards O2 as well as initiation of the catalyst precursor with ethene and 1-octene were also determined. Reaction rates of both decomposition and reaction with O2 are low compared to the initiation rates of reaction with ethene and 1-octene.Figure optionsDownload full-size imageDownload as PowerPoint slide

Related Topics
Physical Sciences and Engineering Chemistry Inorganic Chemistry
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