Impact of Gd-, La-, Nd- and Y-doping on the textural, electrical conductivity and N2O decomposition activity of CuO catalyst
Schwieger W, Abu-Zied BM, Bawaked SM, Kosa SA (2016)
Publication Status: Published
Publication Type: Journal article, Original article
Publication year: 2016
Journal
Publisher: Electrochemical Science Group
Book Volume: 11
Pages Range: 2230-2246
Journal Issue: 3
URI: http://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84960502568&origin=inward
Abstract
In this paper, a series of rare earth (Gd, La, Nd, and Y) doped CuO catalysts have been successfully prepared by using the microwave assisted co-precipitation method and tested for NO direct decomposition. The decomposition pathway of the catalysts precursors was followed up using thermogravimetric analysis (TGA). Several physico-chemical techniques were used in the characterization of the obtained catalysts including XRD, FT-IR, FE-SEM, TEM, N adsorption, XPS, and H-TPR. Structural analysis revealed the formation of nanocrystalline monoclinic CuO as a major phase in all the prepared catalysts together with minor amount of the rare earth oxides. FE-SEM and TEM observations revealed the smaller crystallites sized of the rare earth-containing catalysts compared to the bare CuO one. All the rare earth-doped CuO catalysts showed higher activity and improved electrical conductivity compared to the bare CuO. The activity enhancement of the added rare earth oxides were discussed in terms of the electrical conductivity as well as the structural characterization results.
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Saudi Arabia (SA)How to cite
APA:
Schwieger, W., Abu-Zied, B.M., Bawaked, S.M., & Kosa, S.A. (2016). Impact of Gd-, La-, Nd- and Y-doping on the textural, electrical conductivity and N2O decomposition activity of CuO catalyst. International Journal of Electrochemical Science, 11(3), 2230-2246.
MLA:
Schwieger, Wilhelm, et al. "Impact of Gd-, La-, Nd- and Y-doping on the textural, electrical conductivity and N2O decomposition activity of CuO catalyst." International Journal of Electrochemical Science 11.3 (2016): 2230-2246.
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