Highly Selective Au/ZnO via Colloidal Deposition for CO2 Hydrogenation to Methanol: Evidence of AuZn Role

Abstract: Gold, Au nanoparticles were deposited on ZnO, Al2O3, and Ga2O3 via colloidal method in order to investigate the role of support for CO2 hydrogenation to methanol. Au/ZnO was also produced using impregnation method to investigate the effect of colloidal method to improve methanol selectivity. Au/ZnO produced via sol immobilization showed high selectivity towards methanol meanwhile impregnation method produced Au/ZnO catalyst with high selectivity towards CO. The CO2 conversion was also influenced by the amount … Show more

“…[15] These two different routes have different catalysts because they involve different reaction principles. The catalysts generally used for CO 2 to methanol are metal oxides such as In 2 O 3 , [16] ZnO, [17] CuO, [18] etc., while molecular sieves [19] are often required as catalysts for methanol to hydrocarbons. Because two different catalysts are needed, the CMH route usually involves the use of two catalysts in tandem.…”

The Effect of Mn, Al Doping on the CO₂ Hydrogenation Performance of CaCO₃‐Supported Fe‐Based Catalysts

“…[15] These two different routes have different catalysts because they involve different reaction principles. The catalysts generally used for CO 2 to methanol are metal oxides such as In 2 O 3 , [16] ZnO, [17] CuO, [18] etc., while molecular sieves [19] are often required as catalysts for methanol to hydrocarbons. Because two different catalysts are needed, the CMH route usually involves the use of two catalysts in tandem.…”

The Effect of Mn, Al Doping on the CO₂ Hydrogenation Performance of CaCO₃‐Supported Fe‐Based Catalysts