Please use this identifier to cite or link to this item: http://repositorio.cualtos.udg.mx:8080/jspui/handle/123456789/1250
Title: Ni/C nanostructures: Impregnating-method preparation, textural and structural features, and catalytic property for the hydrogen production
Authors: Galindo Hernández, Félix
Wang, Jin-An
Chen, Lifang
Bokhimi, Xim
Pérez Larios, Alejandro
Gómez, Ricardo
Keywords: Ni/C catalysts
rietveld refinement
nickel nanostructures
nickel point defects
electron density maps
DFT
hydrogen production
ethanol photodehydrogenation
Issue Date: Dec-2013
Publisher: Cambridge University Press
Citation: Galindo-Hernández, F., Wang, J., Chen, L., Bokhimi, X., Pérez-Larios, A., & Gómez, R. (2013). Ni/C nanostructures: Impregnating-method preparation, textural and structural features, and catalytic property for the hydrogen production. Journal of Materials Research, 28(23), 3297-3309. doi:10.1557/jmr.2013.337
Series/Report no.: Journal of Materials Research;Vol. 28, Issue 23, pp. 3297 - 3309
Abstract: Abstract A series of Ni/C catalysts with different Ni content (15, 20, and 30 wt% Ni) were prepared by the wet incipient impregnation method. Their textural properties were studied by surface fractal dimension (D s) and nonlocal density functional theory using nitrogen sorption data. Their structural properties were studied by x-ray diffraction, Rietveld refinement, radial distribution functions (RDFs), and electron density maps of Fourier. Surface areas of Ni/C catalysts decreases slightly from 614 to 533 m2/g as Ni content increases from 15 to 30 wt%; however, the Ni crystallite size (5.1–31.4 nm) increases as the nickel content increases. Many point defects were found by Rietveld refinement in nickel nanostructures of Ni/C catalysts with 20 and 30 wt% Ni. This was confirmed by RDFs and electronic density maps. On the other hand, the hydrogen production via the photodehydrogenation of ethanol is very sensitive to the nickel crystallite size and the number Ni atoms in nickel nanostructures. The maximum reaction rate (363.64 μmol/h) is achieved on Ni/C catalyst with 15 Wt% Ni content which has the smallest crystallite size (5.1 nm) and less point defects in its nickel nanostructures. Ab initio calculations were performed to propose a reaction mechanism in the photodehydrogenation of ethanol.
Description: Artículo
URI: http://repositorio.cualtos.udg.mx:8080/jspui/handle/123456789/1250
ISSN: 2044-5326 (online)
0884-2914 (print)
DOI: https://doi.org/10.1557/jmr.2013.337
Appears in Collections:2414 Artículos



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