Effect of niobium on the activity of Pd/xNb/Ce0.5Zr0.5O2 catalyst for CH4 combustion

The correlation between the occurrence state of surface Pd species of Pd/CeO2 for lean CH4 combustion is investigated. Herein, by using a reduction-deposition method, we have synthesized a highly active 0.5% PdO/CeO2-RE catalyst, in which the Pd nanoparticles are evenly dispersed on the CeO2 nanorods CeO2-R. Based on comprehensive characterization, we have revealed that the uniformly dispersed Pd nanoparticles with a particle size distribution of 2.3 ± 0.6 nm are responsible for the generation of PdO and PdxCe1−xO2−δ phase with –Pd2+–O2−–Ce4+– linkage, which can easily provide oxygen vacancies and facilitate the transfer of reactive oxygen species between the CeO2-R and Pd species. As a consequence, the remarkable catalytic activity of 0.5% Pd/CeO2-RE is related to the high concentration of PdO species on the surface of the catalyst and the synergistic interaction between the Pd species and the CeO2 nanorod.

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Rh/CeO2 composites prepared by combining dealloying with calcination as an efficient catalyst for CO oxidation and CH4 combustion

Journal of Rare Earths ◽

10.1016/j.jre.2021.01.006 ◽

2021 ◽

Author(s):

Dong Duan ◽

Chunxi Hao ◽

Gege He ◽

Yang Wen ◽

Zhanbo Sun

Keyword(s):

Co Oxidation ◽

Efficient Catalyst ◽

Ch4 Combustion

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Electrochemical Promotion of CH4 Combustion over a Pd/CeO2-YSZ Catalyst

Fuel Cells ◽

10.1002/fuce.201000058 ◽

2010 ◽

Vol 11 (1) ◽

pp. 131-139 ◽

Cited By ~ 12

Author(s):

C. Jiménez-Borja ◽

F. Dorado ◽

A. de L.-Consuegra ◽

J. M. G.-Vargas ◽

J. L. Valverde

Keyword(s):

Electrochemical Promotion ◽

Ch4 Combustion

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Improvement of Methane Combustion Activity for Pd/ZrO2 Catalyst by Simple Reduction/Reoxidation Treatment

Catalysts ◽

10.3390/catal9100838 ◽

2019 ◽

Vol 9 (10) ◽

pp. 838 ◽

Cited By ~ 1

Author(s):

Chansong Kim ◽

Eunpyo Hong ◽

Chae-Ho Shin

Keyword(s):

Catalytic Activity ◽

Low Temperatures ◽

Methane Combustion ◽

Reduction Temperature ◽

Isothermal Reaction ◽

Ch4 Combustion ◽

Cyclic Temperature ◽

Zro2 Catalyst ◽

Number Of Cycles ◽

Simple Reduction

The improvement of methane combustion activity was observed in cyclic temperature-programed and isothermal reactions over Pd/ZrO2 catalysts by simple reduction/reoxidation treatment. The catalytic activity increased during the initial stages of isothermal reaction, and the light-off temperature was lowered as the number of cycles increased in the cyclic temperature-programed reaction. To reveal the origin of activation, variations in the reduction properties after the activation period were carefully investigated through CH4 temperature-programed reduction (TPR) measurements. From the CH4-TPR results, it was confirmed that the reduction temperature decreased significantly after activation. The observation of the CH4-TPR peak at relatively low temperatures is directly proportional to the catalytic activity of CH4 combustion. It was therefore concluded that repeated reduction/reoxidation occurred in the reactant stream, and this phenomenon allowed the combustion reaction to proceed more easily at lower temperatures.

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