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Reversing sintering effect of Ni particles on γ-Mo2N via strong metal support interaction

Lili Lin, Jinjia Liu, Xi Liu, Zirui Gao, Ning Rui, Siyu Yao, Feng Zhang, Maolin Wang, Chang Liu, Lili Han, Feng Yang, Sen Zhang, Xiaodong Wen, Sanjaya D. Senanayake, Yichao Wu, Xiao‐Nian Li, José A. Rodríguez, Ding Ma

2021Nature Communications159 citationsDOIOpen Access PDF

Abstract

Abstract Reversing the thermal induced sintering phenomenon and forming high temperature stable fine dispersed metallic centers with unique structural and electronic properties is one of the ever-lasting targets of heterogeneous catalysis. Here we report that the dispersion of metallic Ni particles into under-coordinated two-dimensional Ni clusters over γ-Mo 2 N is a thermodynamically favorable process based on the AIMD simulation. A Ni-4nm/γ-Mo 2 N model catalyst is synthesized and used to further study the reverse sintering effect by the combination of multiple in-situ characterization methods, including in-situ quick XANES and EXAFS, ambient pressure XPS and environmental SE/STEM etc. The under-coordinated two-dimensional layered Ni clusters on molybdenum nitride support generated from the Ni-4nm/γ-Mo 2 N has been demonstrated to be a thermally stable catalyst in 50 h stability test in CO 2 hydrogenation, and exhibits a remarkable catalytic selectivity reverse compared with traditional Ni particles-based catalyst, leading to a chemo-specific CO 2 hydrogenation to CO.

Topics & Concepts

SinteringCatalysisMaterials scienceMolybdenumX-ray photoelectron spectroscopyXANESDispersion (optics)Extended X-ray absorption fine structureChemical engineeringMetalThermal stabilitySelectivityNanoparticleMetallurgyNanotechnologyAbsorption spectroscopyChemistrySpectroscopyOrganic chemistryPhysicsOpticsEngineeringQuantum mechanicsMXene and MAX Phase MaterialsCatalysis and Hydrodesulfurization StudiesCatalytic Processes in Materials Science
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