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Molecular-level insights into the electronic effects in platinum-catalyzed carbon monoxide oxidation

Wenyao Chen, Junbo Cao, Jia Yang, Yueqiang Cao, Hao Zhang, Zheng Jiang, Jing Zhang, Gang Qian, Xinggui Zhou, De Chen, Weikang Yuan, Xuezhi Duan

2021Nature Communications57 citationsDOIOpen Access PDF

Abstract

Abstract A molecular-level understanding of how the electronic structure of metal center tunes the catalytic behaviors remains a grand challenge in heterogeneous catalysis. Herein, we report an unconventional kinetics strategy for bridging the microscopic metal electronic structure and the macroscopic steady-state rate for CO oxidation over Pt catalysts. X-ray absorption and photoelectron spectroscopy as well as electron paramagnetic resonance investigations unambiguously reveal the tunable Pt electronic structures with well-designed carbon support surface chemistry. Diminishing the electron density of Pt consolidates the CO-assisted O 2 dissociation pathway via the O*-O-C*-O intermediate directly observed by isotopic labeling studies and rationalized by density-functional theory calculations. A combined steady-state isotopic transient kinetic and in situ electronic analyses identifies Pt charge as the kinetics indicators by being closely related to the frequency factor, site coverage, and activation energy. Further incorporation of catalyst structural parameters yields a novel model for quantifying the electronic effects and predicting the catalytic performance. These could serve as a benchmark of catalyst design by a comprehensive kinetics study at the molecular level.

Topics & Concepts

CatalysisCarbon monoxideElectronic structureDensity functional theoryDissociation (chemistry)KineticsChemical physicsChemistryX-ray absorption spectroscopyX-ray photoelectron spectroscopyPlatinumMaterials sciencePhotochemistryPhysical chemistryAbsorption spectroscopyComputational chemistryChemical engineeringOrganic chemistryPhysicsEngineeringQuantum mechanicsCatalytic Processes in Materials ScienceCatalysis and Oxidation ReactionsElectrocatalysts for Energy Conversion
Molecular-level insights into the electronic effects in platinum-catalyzed carbon monoxide oxidation | Litcius