Abstract
In this work, a series of La1-xSrxMnO3 catalysts for CO oxidation were successfully fabricated via a facile sol-gel method with multistage calcination. By modifying the Sr doping quantity at A-site, the surface Mn4+/ Mn3+ ratio was manipulated, and thus lattice oxygen and oxygen vacancy concentrations of were further regulated by the system electron migration. This domino effect produced a radically different catalytic response, of which the optimal La0.4Sr0.6MnO3 samples performed the most excellent CO oxidation at lower temperature window. In-situ DRFITS spectra revealed catalytic intermediates and demonstrated the concurrence of dominant Mv-K mechanism and secondary E-R reaction pathway in CO oxidation over La0.4Sr0.6MnO3 under three types of thermodynamic states. The study is poised to enhance the propagation and practical employment of Sr-doped LaMnO3 perovskite catalysts, while supplying theoretical perspectives for the investigation towards underlying CO reaction mechanisms.
Published Version
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