Genli Shen scite author profile

We report on the preparation and characterization of CeO(2) nanofibers (CeO(2)-NFs) and nanocubes (CeO(2)-NCs), as well as Sm- and Gd-doped CeO(2) nanocubes (Sm-CeO(2)-NCs and Gd-CeO(2)-NCs), synthesized by a simple hydrothermal process for CO catalytic oxidation. The samples were characterized by X-ray diffraction (XRD), Brunauer-Emmett-Teller (BET), X-ray photoelectron spectroscopy (XPS), transmission electron microscopy (TEM), Raman spectroscopy, and photoluminescence spectroscopy. Their oxygen-storing capacity (OSC) was examined by means of hydrogen temperature-programmed reduction (H(2)-TPR) and oxygen pulse techniques. Their catalytic properties for CO catalytic oxidation were comparatively investigated. The results showed that the CeO(2)-NFs possessed a higher catalytic activity compared to the CeO(2)-NCs because of their smaller size and the greater number of oxygen vacancies. The activity of the Sm-CeO(2)-NCs was higher than that of the CeO(2)-NCs due to an increase in the number of oxygen vacancies, which results from the substitution of Ce(4+) species with Sm(3+) ions. In contrast, Gd doping had a negative effect on the CO catalytic oxidation due to the special electron configuration of Gd(3+) (4f(7)). Our work demonstrates that the oxygen vacancies in pure CeO(2) and the electron configuration of the dopants in doped CeO(2) play an important role in CO oxidation.

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Low-temperature efficient degradation of ethyl acetate catalyzed by lattice-doped CeO2–CoOx nanocomposites

Akram

Wang

Chen

et al. 2016

Catalysis Communications

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CdO activated Sn-doped ZnO for highly sensitive, selective and stable formaldehyde sensor

Han

Zhang

et al. 2011

Sensors and Actuators B: Chemical

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Genli Shen

Catalytic removal of benzene over CeO2–MnOx composite oxides prepared by hydrothermal method

Comparative Study of CeO₂ and Doped CeO₂ with Tailored Oxygen Vacancies for CO Oxidation

Low-temperature efficient degradation of ethyl acetate catalyzed by lattice-doped CeO2–CoOx nanocomposites

CdO activated Sn-doped ZnO for highly sensitive, selective and stable formaldehyde sensor

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About

Genli Shen

Catalytic removal of benzene over CeO2–MnOx composite oxides prepared by hydrothermal method

Comparative Study of CeO2 and Doped CeO2 with Tailored Oxygen Vacancies for CO Oxidation

Low-temperature efficient degradation of ethyl acetate catalyzed by lattice-doped CeO2–CoOx nanocomposites

CdO activated Sn-doped ZnO for highly sensitive, selective and stable formaldehyde sensor

Contact Info

Product

Resources

About

Comparative Study of CeO₂ and Doped CeO₂ with Tailored Oxygen Vacancies for CO Oxidation