Abstract
A series of copper catalysts with loading less than 1.0 wt% supported on super activated carbon (SAC, 2403 m2·g−1) as well as commercial activated carbon (AC, 1297 m2·g−1) were produced by the wet-impregnation process and applied in methanol oxidative carbonylation to generate dimethyl carbonate (DMC). The 0.5Cu/SAC catalyst showed highly dispersed Cu nanoparticles (NPs, ∼2.2 nm) and exhibited a turnover frequency (44.6 h−1) about four times higher than that of 0.5Cu/AC. The characterization results indicate that the large specific surface area of SAC greatly promoted the dispersion of Cu NPs. In addition, the abundant oxygen-containing groups on SAC enhanced interaction between Cu NPs and carbon support, which maintained the concentration of active Cu0 sites and facilitated high stability of Cu/SAC catalysts during the reaction. This research provided a novel strategy for fabricating low loading Cu-based catalysts with commercial prospects for the DMC synthesis.
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