Highly Efficient Gallium‐Promoted Cu/SiO2 Catalyst for the Hydrogenation of Methyl 3‐Hydroxypropionate to 1,3‐Propanediol

Abstract The conversion of Methyl 3‐hydroxypropionate (3‐HPM) to 1,3‐propanediol (1, 3‐PDO) is an important step in the pathway towards the longterm sustainable production of the ethylene oxide hydroesterification. However, 3‐HPM is prone to side reactions like hydroxyl β‐dehydration and low reaction efficiency, which hinders its development. This study presents the first‐ever report on highly efficient gallium‐promoted Cu/SiO 2 catalysts prepared using ethanol‐assisted ammonia‐evaporation (Et‐AE) for converting 3‐HPM to 1,3‐PDO. The prepared Cu‐1Ga/SiO 2 catalyst exhibited satisfactory catalytic activity and 1,3‐PDO selectivity in the hydrogenation reaction, with a conversion of 3‐HPM of 94 % and a selectivity to 1,3‐PDO of 91 %. The characterisation results show that the addition of Ga increases the specific surface area and the pore volume of the catalyst, and also increases the dispersion of the Cu species. And the promotional effect likely originates from interactions between Ga 3+ and Cu 0 species though enhanced ability of the latter to activate H 2 . In addition, the introduction of Ga into the catalyst increases the interaction between Cu and the support, making it more difficult for Cu + to be completely reduced to Cu 0 . This increases the content of Cu + in the catalyst, which is beneficial for improving the activity and stability of the catalyst. This study investigates modifying Cu catalysts to provide guidelines for obtaining high performing hydrogenation catalysts.