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Effect of Rare Earth Dopants on Structural Characteristics of Nanoceria Synthesized by Combustion Method

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dc.contributor.author Jamshidijam, M
dc.contributor.author Mangalaraja, R V
dc.contributor.author Akbari-Fakhrabadi, A
dc.contributor.author Ananthakumar, S
dc.contributor.author Chan, S H
dc.date.accessioned 2016-08-08T06:26:20Z
dc.date.available 2016-08-08T06:26:20Z
dc.date.issued 2014-02
dc.identifier.citation Powder Technology, 253:304–310 en_US
dc.identifier.uri http://hdl.handle.net/123456789/2384
dc.description.abstract Rare earth (RE)-doped ceria powders with a chemical composition of Ce1 − xRExO2 − x / 2 (X: 0.1 and RE: Gd, Sm, Er, Pr, Nd and Y) were prepared by nitrate-fuel combustion method. The TG and DT analyses of the as-synthesized powders showed a complete combustion with a small range endothermic process within a broad exothermic reaction. GDC, SDC, EDC, PDC, NDC and YDC precursors were calcined at 700 °C for 2 h and characterized using XRD, SEM and TEM. Powder characteristics such as morphology, crystallite size, primary particle size, lattice parameter and lattice strain of calcined powders have been studied. All X-ray diffraction patterns of as-synthesized and calcined samples were indexed as fluorite structure. The crystallite size of nanoceria obtained by Scherrer's formula was between 17 and 19.5 nm and via Williamson–Hall (W–H) plots in the range of 25–38 nm that shows the effect of lattice strain on the average crystallite size. Primary particle size calculated from BET data was in the range of 24–37 nm. TEM images showed fine spherical particles and SAED patterns confirmed fluorite structure of all powders. en_US
dc.language.iso en en_US
dc.publisher Elsevier en_US
dc.subject Rare earth dopants en_US
dc.subject Nanoceria en_US
dc.subject Structure en_US
dc.subject Crystallite size en_US
dc.subject Combustion en_US
dc.title Effect of Rare Earth Dopants on Structural Characteristics of Nanoceria Synthesized by Combustion Method en_US
dc.type Article en_US


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