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Nature of Zirconia on a Copper Inverse Catalyst Under CO<sub>2</sub> Hydrogenation Conditions

Simran Kumari, Anastassia N. Alexandrova, Philippe Sautet

2023Journal of the American Chemical Society32 citationsDOIOpen Access PDF

Abstract

The growing concern over the escalating levels of anthropogenic CO 2 emissions necessitates effective strategies for its conversion to valuable chemicals and fuels. In this research, we embark on a comprehensive investigation of the nature of zirconia on a copper inverse catalyst under the conditions of CO 2 hydrogenation to methanol. We employ density functional theory calculations in combination with the Grand Canonical Basin Hopping method, enabling an exploration of the free energy surface including a variable amount of adsorbates within the relevant reaction conditions. Our focus centers on a model three-atom Zr cluster on a Cu(111) surface decorated with various OH, O, and formate ligands, noted Zr 3 O x (OH) y (HCOO) z /Cu(111), revealing major changes in the active site induced by various reaction parameters such as the gas pressure, temperature, conversion levels, and CO 2 /H 2 feed ratios. Through our analysis, we have unveiled insights into the dynamic behavior of the catalyst. Specifically, under reaction conditions, we observe a large number of composition and structures with similar free energy for the catalyst, with respect to changing the type, number, and binding sites of adsorbates, suggesting that the active site should be regarded as a statistical ensemble of diverse structures that interconvert.

Topics & Concepts

ChemistryCatalysisFormateCopperMethanolInverseHeterogeneous catalysisDensity functional theoryCubic zirconiaAtom (system on chip)Cluster (spacecraft)Water-gas shift reactionComputational chemistryInorganic chemistryPhysical chemistryOrganic chemistryCeramicComputer scienceMathematicsGeometryProgramming languageEmbedded systemCarbon dioxide utilization in catalysisCO2 Reduction Techniques and CatalystsCatalysts for Methane Reforming
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