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Carburization induced phase transition of <scp>Ni<sub>3</sub>In</scp> to <scp>Ni<sub>3</sub>InC</scp><sub>0.5</sub> intermetallic carbide for acetylene semihydrogenation

Xiaohu Ge, Nina Fei, Yueqiang Cao, Hao Jiang, Jing Zhang, Gang Qian, Xinggui Zhou, Xuezhi Duan

2025AIChE Journal7 citationsDOI

Abstract

Abstract In this work, we develop a carburization strategy to transform hexagonal Ni 3 In into face‐centered cubic Ni 3 InC 0.5 intermetallic carbide, leveraging partially isolated Ni sites for improved acetylene semihydrogenation. The catalyst synthesized via carburization of Ni 3 In intermetallic compound derived from Ni/In/Mg/Al layered double hydroxides in a C 2 H 2 /H 2 atmosphere is evidenced to show Ni 3 InC 0.5 intermetallic carbide phase through detailed characterizations, including high‐resolution transmission electron microscopy and X‐ray absorption spectroscopy. Catalytic tests reveal that the Ni 3 InC 0.5 catalyst achieves 92.0% ethylene selectivity at full acetylene conversion, outperforming the Ni and Ni 3 In catalysts. Both experimental and theoretical evidence demonstrate that interstitial carbon atoms in Ni 3 InC 0.5 synergize with neighboring In atoms to modify the electronic structure of surface Ni sites via significant hybridization between Ni 3 d , In 5 p , and C 2 p orbitals. These unique features enable higher kinetic favorability of ethylene desorption over its further hydrogenation on the Ni 3 InC 0.5 catalyst and thus contribute to the enhanced semihydrogenation.

Topics & Concepts

IntermetallicAcetyleneCarbideMaterials scienceTransition metalMetallurgyPhase (matter)Phase transitionChemical engineeringChemistryThermodynamicsCatalysisOrganic chemistryPhysicsEngineeringAlloyCatalysis and Hydrodesulfurization StudiesCatalytic Processes in Materials ScienceCatalysts for Methane Reforming
Carburization induced phase transition of <scp>Ni<sub>3</sub>In</scp> to <scp>Ni<sub>3</sub>InC</scp><sub>0.5</sub> intermetallic carbide for acetylene semihydrogenation | Litcius