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AuthorAli S.
AuthorAl-Marri M.J.
AuthorAl-Jaber A.S.
AuthorAbdelmoneim A.G.
AuthorKhader M.M.
Available date2020-03-18T08:11:10Z
Publication Date2018
Publication NameJournal of Natural Gas Science and Engineering
ResourceScopus
ISSN18755100
URIhttp://dx.doi.org/10.1016/j.jngse.2018.01.023
URIhttp://hdl.handle.net/10576/13386
AbstractIn this paper, a comparative investigation of the catalytic performances of Pd@TiO2 and Pd@CeO2, core-shells nanocatalysts supported over functionalized alumina, for application to methane oxidation is presented. The results indicated that the Pd@CeO2/SiO2.Al2O3 core-shell nanocatalyst exhibited higher activity and stability than the Pd@TiO2/SiO2.Al2O3 nanocatalyst. Complete combustion of methane over the Pd@CeO2/SiO2.Al2O3 nanocatalyst was achieved at about 400 °C. By contrast, the maximum combustion of methane over the Pd@TiO2/SiO2.Al2O3 nanocatalyst was only attained at ∼550 °C. The Pd@TiO2/SiO2.Al2O3 nanocatalyst experienced deactivation, and a transient dip in methane conversion in the temperature region between 580 °C and 750 °C was also observed. The exceptional activity of the Pd@CeO2/SiO2.Al2O3 nanocatalyst was attributed to the intimate interaction between palladium (Pd) and ceria (CeO2) and efficient oxygen back-spillover at Pd and CeO2 interface resulting from the core-shell structure.
SponsorThis paper was made possible by an NPRP Grant # 6-290-1-059 from the Qatar National Research Fund (a member of Qatar Foundation). The statements made herein are solely the responsibility of the authors.
Languageen
PublisherElsevier B.V.
SubjectCore-shell nano-catalyst
Methane oxidation
Pd@CeO2.SiO2 and Pd@TiO2
TitleSynthesis, characterization and performance of Pd-based core-shell methane oxidation nano-catalysts
TypeArticle
Pagination625 - 633
Volume Number55
dc.accessType Abstract Only


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