The use of palladium nanoparticles supported on MCM-41 mesoporous molecular sieves in Heck reaction: A comparison of basic and neutral supports

Bifunctional supported catalysts were prepared by grafting of chemically reduced palladium nanoparticles onto basic MCM-41-type solid supports. The supports were obtained by ion-exchange with Cs+ or K+ ions from both in-synthesis and post-synthesis Al-doped mesoporous molecular sieves MCM-41 (i.e., (Al)MCM-41 and Al-grafted MCM-41). For a comparison, Pd@Cs+-exchanged zeolite Y and the non-basic Pd@MCM-41 catalyst were also prepared. All supported catalysts were tested in Heck reaction of butyl acrylate and bromobenzene to give n-butyl cinnamate. Catalysts Pd@Cs+-(Al)MCM-41 and Pd@Cs+-Al-grafted MCM-41 proved to be superior to the analogous catalysts reported in the literature in terms of turnover number and turnover frequency. Most active, however, were catalytic systems obtained from combination of the simple, non-basic Pd@MCM-41 with an external base, which gave the coupling product in 33% after 20 h at 160 °C in N,N-dimethylacetamide in the presence of sodium acetate and at 1 mol.% palladium loading.

Bifunctional supported catalysts based on palladium nanoparticles and basic ion-exchanged Al-doped MCM-41 type supports were shown to promote Heck reaction of butyl acrylate with bromobenzene. Details on catalyst characterization and a comparison of the catalyst efficiency are provided.Figure optionsDownload as PowerPoint slide