Kebin Zhou scite author profile

CeO(2) is a catalytic material of exceptional technological importance, and the precise role of oxygen vacancies is crucial to the greater understanding of these oxide materials. In this work, two ceria nanorod samples with different types and distributions of oxygen vacancies were synthesized. A direct relationship between the concentration of the larger size oxygen vacancy clusters and the reducibility/reactivity of nanosized ceria was revealed. These results may be an important step in understanding and designing active sites at the surface of metal oxide catalytic materials.

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Catalysis Based on Nanocrystals with Well‐Defined Facets

Zhou

2011

Angew Chem Int Ed

753

545

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Using bottom-up chemistry techniques, the composition, size, and shape in particular can now be controlled uniformly for each and every nanocrystal (NC). Research into shape-controlled NCs have shown that the catalytic properties of a material are sensitive not only to the size but also to the shape of the NCs as a consequence of well-defined facets. These findings are of great importance for modern heterogeneous catalysis research. First, a rational synthesis of catalysts might be achieved, since desired activity and selectivity would be acquired by simply tuning the shape, that is, the exposed crystal facets, of a NC catalyst. Second, shape-controlled NCs are relatively simple systems, in contrast to traditional complex solids, suggesting that they may serve as novel model catalysts to bridge the gap between model surfaces and real catalysts.

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Enhanced catalytic activity of ceria nanorods from well-defined reactive crystal planes

Zhou

Wang

Sun

et al. 2005

Journal of Catalysis

1,038

459

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Kebin Zhou

Oxygen Vacancy Clusters Promoting Reducibility and Activity of Ceria Nanorods

Catalysis Based on Nanocrystals with Well‐Defined Facets

Enhanced catalytic activity of ceria nanorods from well-defined reactive crystal planes

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