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MOF‐derived/zeolite hybrid catalyst for the production of light olefins from CO<sub>2</sub>

Nuria Martín, Ander Portillo, Ainara Ateka, Francisco G. Cirujano, Lide Oar‐Arteta, Andrés T. Aguayo, Michiel Dusselier

2020ChemCatChem37 citationsDOIOpen Access PDF

Abstract

Abstract In this contribution we propose an alternative catalytic system based on MOF derivatives and small pore zeolites for the selective conversion of CO 2 into light olefins, using the lowest metal loadings and highest GHSV reported in literature. The catalyst synthesis involves deriving In−Zr oxides from MOFs containing these metals in their structure, i. e. (Zr)UiO‐67‐bipy‐In, via direct calcination in the presence of the zeolite, avoiding co‐precipitation, washing and mixing steps. This effectively creates a truly bifunctional In−Zr zeolite catalyst, opposed to physical mixtures of two catalysts using different precursors. The good dispersion and low loadings of the MOF‐derived In−Zr oxide supplemented with the strong acidity of chabazite‐type zeolites allows to couple the activation of CO 2 with C−C coupling, obtaining space time yields of 0.1 mol of CO 2 converted to light olefins per gram of In per hour at 375 °C, under the GHSV conditions employed.

Topics & Concepts

ZeoliteCatalysisCalcinationChabaziteSpace velocityDispersion (optics)BifunctionalInorganic chemistryChemistryChemical engineeringMaterials scienceOxideMetalHeterogeneous catalysisMixing (physics)Organic chemistrySelectivityOpticsPhysicsEngineeringQuantum mechanicsCarbon dioxide utilization in catalysisMetal-Organic Frameworks: Synthesis and ApplicationsZeolite Catalysis and Synthesis
MOF‐derived/zeolite hybrid catalyst for the production of light olefins from CO<sub>2</sub> | Litcius