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Enhanced Hydrogenation Properties of Pd Single Atom Catalysts with Atomically Dispersed Ba Sites as Electronic Promoters
journal contributionposted on 2022-11-28, 16:31 authored by Ying Zhang, Yujie Cheng, Xilun Wang, Qingdi Sun, Xiaohui He, Hongbing Ji
Precise adjustment of the electronic structure of heterogeneous catalysts is an effective strategy to improve their catalytic properties. By preparing Pd1Ba1/Al2O3 double atom catalysts with a ball milling method as a model catalyst, we demonstrate an interfacial electronic effect of Pd species induced by Ba single atoms (SAs) as electronic promoters. The introduction of Ba SAs promotes the transfer of electrons from Ba atoms to Pd atoms, forming electron-rich Pdδ+ species. During catalysis, Pd species with the modification of Ba SAs lower apparent activation energy and promote H2 dissociation, which dramatically enhances the catalytic properties in several typical hydrogenation reactions under mild conditions.
ball milling methodenhanced hydrogenation propertiesdouble atom catalysts3 sub2 sub1 subinterfacial electronic effectδ + supba single atomsba sas promotespd species inducedba atomspd atomsheterogeneous catalystscatalytic propertieselectronic structureelectronic promotersrich pdpreparing pdpd speciespromote hmodel catalystmild conditionsforming electroneffective strategydramatically enhances