Aiping Jia scite author profile

The interaction of hydrogen with reduced ceria (CeO2−x) powders and CeO2−x(111) thin films was studied using several characterization techniques including TEM, XRD, LEED, XPS, RPES, EELS, ESR, and TDS. The results clearly indicate that both in reduced ceria powders as well as in reduced single crystal ceria films hydrogen may form hydroxyls at the surface and hydride species below the surface. The formation of hydrides is clearly linked to the presence of oxygen vacancies and is accompanied by the transfer of an electron from a Ce3+ species to hydrogen, which results in the formation of Ce4+, and thus in oxidation of ceria.

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Structure Sensitivity of Au‐TiO₂ Strong Metal–Support Interactions

Zhang

et al. 2021

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Strong metal–support interactions (SMSI) is an important concept in heterogeneous catalysis. Herein, we demonstrate that the Au‐TiO2 SMSI of Au/TiO2 catalysts sensitively depends on both Au nanoparticle (NP) sizes and TiO2 facets. Au NPs of ca. 5 nm are more facile undergo Au‐TiO2 SMSI than those of ca. 2 nm, while TiO2 {001} and {100} facets are more facile than TiO2{101} facets. The resulting capsulating TiO2−x overlayers on Au NPs exhibit an average oxidation state between +3 and +4 and a Au‐to‐TiO2−x charge transfer, which, combined with calculations, determines the Ti:O ratio as ca. 6:11. Both TiO2−x overlayers and TiO2−x‐Au interface exhibit easier lattice oxygen activation and higher intrinsic activity in catalyzing low‐temperature CO oxidation than the starting Au‐TiO2 interface. These results advance fundamental understanding of SMSI and demonstrate engineering of metal NP size and oxide facet as an effective strategy to tune the SMSI for efficient catalysis.

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Role of surface Ni and Ce species of Ni/CeO2 catalyst in CO2 methanation

Zhou

Liu

Cui

et al. 2016

Applied Surface Science

295

132

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Aiping Jia

Oxidation of Reduced Ceria by Incorporation of Hydrogen

Structure Sensitivity of Au‐TiO₂ Strong Metal–Support Interactions

Role of surface Ni and Ce species of Ni/CeO2 catalyst in CO2 methanation

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Aiping Jia

Oxidation of Reduced Ceria by Incorporation of Hydrogen

Structure Sensitivity of Au‐TiO2 Strong Metal–Support Interactions

Role of surface Ni and Ce species of Ni/CeO2 catalyst in CO2 methanation

Contact Info

Product

Resources

About

Structure Sensitivity of Au‐TiO₂ Strong Metal–Support Interactions