Bahmanpour, Ali M.Nuguid, Rob Jeremiah G.Savereide, Louisa M.Mensi, Mounir D.Ferri, DavideLuterbacher, Jeremy S.Krocher, Oliver2022-05-232022-05-232022-05-232022-02-0110.1016/j.jcou.2021.101881https://infoscience.epfl.ch/handle/20.500.14299/187984WOS:000788080800027Ni/Al2O3 is an active catalysts for CO2 hydrogenation to both CH4 and CO. By doping with Ga, we succeeded in shifting the selectivity of these catalysts almost completely toward CO. In-situ IR spectroscopy studies showed that the catalyst activity is directly related to the concentration of surface hydroxyl groups that are responsible for the adsorption of CO2 and the formation of intermediate bicarbonates and formates on the catalyst surface. The addition of Ga improved the Ni dispersion which was concomitant with the formation of a Ni-Ga layer on the surface of alumina, thereby reducing the surface hydroxyl concentration. The reduced and weakened interaction between the intermediate products, i.e. bicarbonates and formates, and the catalyst surface, increased the CO selectivity from similar to 40 % to 98 %.Chemistry, MultidisciplinaryEngineering, ChemicalChemistryEngineeringco2 hydrogenationnickelgalliumreverse water gas shift reactionmethanationhydroxyl groupmolybdenum carbidecatalystsreductionmetalconversionmechanismmethanolpotassiumsupportdriftstext::journal::journal article::research article