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Mechanistic aspects of facet-dependent CH4/C2+ selectivity over a χ-Fe5C2 Fischer–Tropsch catalyst

Thanh Hai Pham, Junbo Cao, Nan Song, Yueqiang Cao, Bingxu Chen, Gang Qian, Xinggui Zhou, De Chen, Xuezhi Duan

2020Green Energy & Environment18 citationsDOIOpen Access PDF

Abstract

Structure–performance relationship is a complex issue in iron-catalyzed Fischer–Tropsch synthesis, and it is not easy to elucidate it by experimental investigations. First-principle calculation is a powerful method for explaining experimental results and guiding catalyst design. In this study, we investigated the reaction mechanisms of CH4 formation and C–C coupling on four χ-Fe5C2 surfaces and established the kinetic equations to compare the rates of CH4 formation and C1+C1 coupling reactions and determine the CH4/C2+ selectivity. The results show that the geometry of the χ-Fe5C2 surfaces has little effect on the formation rate of CH4; however, the C1+C1 coupling reactions are significantly affected by the surface geometry. The C1+C1 coupling reaction rates on the terraced-like (510) and (021) surfaces are much higher than those on the stepped-like (001) and (100) surfaces. Based on these results, we established a Brønsted–Evans–Polanyi (BEP) relationship between the effective barrier difference for CH4 formation and C1+C1 coupling (ΔEeff) and the adsorption energy of C+4H (ΔEC+4H) on χ-Fe5C2 surfaces. ΔEC+4H can be used as a descriptor for CH4/C2+ selectivity on different surfaces of χ-Fe5C2.

Topics & Concepts

SelectivityFischer–Tropsch processCatalysisChemistryCoupling (piping)AdsorptionPhysical chemistryFacet (psychology)Kinetic energyComputational chemistryThermodynamicsMaterials scienceOrganic chemistryComposite materialPhysicsQuantum mechanicsPsychologyPersonalityBig Five personality traitsSocial psychologyCatalysts for Methane ReformingCatalytic Processes in Materials ScienceCatalysis and Oxidation Reactions
Mechanistic aspects of facet-dependent CH4/C2+ selectivity over a χ-Fe5C2 Fischer–Tropsch catalyst | Litcius