Boosting the Performance of Nano-Ni Catalysts by Palladium Doping in Flow Hydrogenation of Sulcatone

Abstract: The effect of Pd doping on nano-Ni catalyst hydrogenation aptitude in sulcatone (6-methyl-5-hepten-2-one) hydrogenation was investigated. Obtained results demonstrated that the addition of non-catalytic amounts of Pd to the surface of parent Ni catalyst improves the activity to the extent that it surpassed the activity of 2.16 wt% Pd catalyst (model catalyst) at optimal reaction conditions in the flow hydrogenation of an unsaturated ketone. Pd doping improves hydrogen activation on the catalyst, which was foun… Show more

“…Sá and co-workers investigated the effect of palladium doping on a nano-nickel catalyst during the hydrogenation of sulcatone under continuous-flow conditions [8]. The authors observed that doping enhanced hydrogen activation on the catalyst, which was found to be a rate-limiting step using kinetic isotopic measurements and theoretical calculations.…”

Continuous-Flow Catalysis

“…Sá and co-workers investigated the effect of palladium doping on a nano-nickel catalyst during the hydrogenation of sulcatone under continuous-flow conditions [8]. The authors observed that doping enhanced hydrogen activation on the catalyst, which was found to be a rate-limiting step using kinetic isotopic measurements and theoretical calculations.…”

Continuous-Flow Catalysis

Controlling the metal work function through atomic-scale surface engineering

First white beam on a von Hámos spectrometer at the PolyX beamline of SOLARIS