Highly active and selective binary catalyst system for the coupling reaction of CO2 and hydrous epoxides
writer:Ren-Jian Wei, Xing-Hong Zhang*, Bin-Yang Du, Zhi-Qiang Fan, Guo-Rong Qi
keywords:Carbon dioxide,Epoxides,Coupling reaction,Double metal cyanide complex
source:期刊
specific source:Journal of Molecular Catalysis A: Chemical 379 (2013) 38– 45
Issue time:2013年
Although most of the zinc-containing catalysts show excellent catalytic activity for the coupling reaction of carbon dioxide (CO2) with epoxides, generally, trace amounts of water in the reaction systems could cause a significant decrease of the catalytic activity. In this work, a nanoporous zinc-cobalt double metalcyanide complex (Zn–CoIIIDMCC) with high surface area was synthesized via a modified hydrothermal process using tri-block copolymer EO20PO70EO20(P123) as the template. When cetyltrimethylammonium bromide (CTAB) was used as the co-catalyst, the Zn–CoIIIDMCC/CTAB binary catalyst system could effectively catalyze the coupling reaction of CO2 with hydrous propylene oxide (PO), producing propylene carbonate (PC) with nearly 100% productivity and 100% selectivity. This binary catalyst system could also catalyze the coupling reaction of other commercial epoxides and CO2 without using any solvents with nearly 100% productivity and 100% selectivity. With such new catalyst system, hundreds of ppm water in the reaction system will no longer be the matter.
