Promoting effect of titanium on C―O hydrogenolysis of erythritol to 1,4-butanediol over Pt/W/Ti-SBA-15 catalysts

“…5,6 To consider an alternative oxophilic metal oxide, tungstate-based oxide species (WO x ) has been applied as a catalyst in various applications such as THFA hydrogenolysis, 17,18 glycerol hydrogenolysis, 19−22 and erythritol hydrogenolysis. 23 Nevertheless, the design of a Cu-WO x catalyst for FAL hydrogenolysis into 2-MF and 2-MTHF products remains unexplored. Notably, most previous research conducted experiments in batch operation mode.…”

“…Additionally, under the N 2 atmosphere, accelerating the reaction temperature to 220 °C resulted in the highest yield of 2-MF at 94% under an extended reaction time of 4 h . This enhanced hydrogenolysis activity can be attributed to the presence of Re in oxide states, facilitating the conversion of FAL into the target 2-MF product in both H 2 and N 2 systems. , To consider an alternative oxophilic metal oxide, tungstate-based oxide species (WO x ) has been applied as a catalyst in various applications such as THFA hydrogenolysis, , glycerol hydrogenolysis, − and erythritol hydrogenolysis . Nevertheless, the design of a Cu-WO x catalyst for FAL hydrogenolysis into 2-MF and 2-MTHF products remains unexplored.…”

Continuous Furfural Hydrogenolysis into 2-Methylfuran and 2-Methyltetrahydrofuran over Cu/γ–Al₂O₃ with ReO_x and WO_x as Catalyst Boosters

“…5,6 To consider an alternative oxophilic metal oxide, tungstate-based oxide species (WO x ) has been applied as a catalyst in various applications such as THFA hydrogenolysis, 17,18 glycerol hydrogenolysis, 19−22 and erythritol hydrogenolysis. 23 Nevertheless, the design of a Cu-WO x catalyst for FAL hydrogenolysis into 2-MF and 2-MTHF products remains unexplored. Notably, most previous research conducted experiments in batch operation mode.…”

“…Additionally, under the N 2 atmosphere, accelerating the reaction temperature to 220 °C resulted in the highest yield of 2-MF at 94% under an extended reaction time of 4 h . This enhanced hydrogenolysis activity can be attributed to the presence of Re in oxide states, facilitating the conversion of FAL into the target 2-MF product in both H 2 and N 2 systems. , To consider an alternative oxophilic metal oxide, tungstate-based oxide species (WO x ) has been applied as a catalyst in various applications such as THFA hydrogenolysis, , glycerol hydrogenolysis, − and erythritol hydrogenolysis . Nevertheless, the design of a Cu-WO x catalyst for FAL hydrogenolysis into 2-MF and 2-MTHF products remains unexplored.…”

Continuous Furfural Hydrogenolysis into 2-Methylfuran and 2-Methyltetrahydrofuran over Cu/γ–Al₂O₃ with ReO_x and WO_x as Catalyst Boosters