Boron Modified Bifunctional Cu/SiO₂ Catalysts with Enhanced Metal Dispersion and Surface Acid Sites for Selective Hydrogenation of Dimethyl Oxalate to Ethylene Glycol and Ethanol

Boron (B) promoter modified Cu/SiO₂ bifunctional catalysts were synthesized by sol-gel method and used to produce ethylene glycol (EG) and ethanol (EtOH) through efficient hydrogenation of dimethyl oxalate (DMO). Experimental results showed that boron promoter could significantly improve the catalytic performance by improving the structural characteristics of the Cu/SiO₂ catalysts. The optimized 2B-Cu/SiO₂ catalyst exhibited excellent low temperature catalytic activity and long-term stability, maintaining the average EG selectivity (Sel._EG) of 95% at 190 °C, and maintaining the average EtOH selectivity (Sel._EtOH) of 88% at 260 °C, with no decrease even after reaction of 150 h, respectively. Characterization results revealed that doping with boron promoter could significantly increase the copper dispersion, enhance the metal-support interaction, maintain suitable Cu⁺/(Cu⁺ + Cu⁰) ratio, and diminish metallic copper particles during the hydrogenation of DMO. Thus, this work introduced a bifunctional boron promoter, which could not only improve the copper dispersion, reduce the formation of bulk copper oxide, but also properly enhance the acidity of the sample surface, so that the Cu/SiO₂ sample could exhibit superior EG selectivity at low temperature, as well as improving the EtOH selectivity at high temperature.