Effluence of the local environment on the activity of Grubbs catalysts

The use of nanoparticles (NPs) and their protecting layer as support in catalysis start to be exploited, due to their unique characteristics at the interface of homogeneous and heterogeneous catalysts. At long term, the tuning of the local environment of catalytic species anchored on the surface of NPs may be a way to mimic the active site of enzymes. Aiming to explore the influence of the local environment, we evaluated the activity of the first generation Grubbs catalyst under two conditions: encapsulating it in a silica matrix and in the presence of gold NPs (NPs-Au). Although the heterogenization via the sol-gel method is a well-known and well-explored route, we could not obtain good results due to catalyst deactivation under gel formation in both hydrolytic and non-hydrolytic (nonaqueous) conditions. Considering the NPs-Au, they were synthesized with success using a mixture of ligands (1-octanethiol and 3-mercaptopropionic acid) that showed phase segregation and formation of stripes. The evaluation of the Grubbs catalyst on metathesis reactions (self-metathesis of 1-hexene and ring opening polymerization of 1,5-ciclooctadiene) showed premature deactivation in the presence of both NPs-Au and free thiol. In the presence of NPs-Au, the catalytic activity descreased, achieving null results when weight ratios bigger than 1mg of NPs-Au to 10 mg of catalyst were used, possibly associated to the interaction between the mercaptans and the ruthenium catalyst. To make possible the catalyst anchoring on the NPs-Au surface, a NHC carbene with an allyl group on its carbon backbone was synthesized, corresponding to the first step to introduce functional groups to the catalyst (AU)