PNNL

Abstract

An ordered hierarchically porous silica (HPS) with the coexistence of both mesopores and abundant micropores was fabricated and used as support for the preparation of copper-based catalysts (Cu/HPS). The ordered mesoporous structure of the Cu/HPS catalysts was retained. In addition, both Cu0 and Cu+ species are found to be highly dispersed. It might be attributed to the anchoring effect of micropores and the formation of Cu-O-Si species derived from the strong interaction between surface silica and copper precursor. The Cu/HPS catalysts showed excellent performances in the hydrogenation of dimethyl adipate. The catalytic activity in dimethyl oxalate hydrogenation depended on the surface reaction, while the activity in dimethyl adipate hydrogenation will be readily controlled by pore diffusion, which can be improved by tailoring the pore size of HPS. These findings could be meaningful instruction for the rational design of industrial catalysts for the hydrogenation of various diesters.