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Catalysts Derived from Al–Ni Intermetallic Compounds for Efficient Selective Semihydrogenation of Phenylacetylene

Huibin Liu, Xiao Chen, Shiyao Liu, Yan Du, Wenjun Zhu, Zhengwen Hu, Marc Armbrüster, Changhai Liang

2024Industrial & Engineering Chemistry Research20 citationsDOI

Abstract

Using the low-temperature molten salt strategy, Al–Ni intermetallic compound catalysts (AlNi, Al 3 Ni 2, and AlNi 3 ) with efficiently separated nickel sites are successfully prepared by reducing the oxides of stoichiometric mixtures of the corresponding elements. Applying these materials as catalysts in the semihydrogenation of phenylacetylene to styrene suggests that the AlNi 3 -derived catalyst exhibits superior catalytic performance, achieving a remarkable styrene selectivity of 88% at a high conversion of phenylacetylene (99%). In conjunction with reaction kinetics, in situ infrared (IR) measurements, and density functional theory (DFT) calculations, the electron-rich Ni active center, created through electron transfer from Al atoms, plays a pivotal role in reducing the surface adsorption energy of styrene and thus enhancing the semihydrogenation selectivity. In addition, the magnetic AlNi 3 -derived catalysts exhibit excellent stability and can be easily separated by using a magnet.

Topics & Concepts

PhenylacetyleneCatalysisIntermetallicStyreneSelectivityStoichiometryMaterials scienceDensity functional theoryAdsorptionChemical engineeringNickelInorganic chemistryActive centerPhysical chemistryChemistryPhotochemistryCopolymerComputational chemistryOrganic chemistryAlloyMetallurgyComposite materialEngineeringPolymerCatalytic Processes in Materials ScienceMesoporous Materials and CatalysisCatalysis and Oxidation Reactions