Temperature-programmed reduction of Ni-Mo oxides

Joaquín L. Brito; Jorge Laine; Kerry C. Pratt

doi:10.1007/BF01107422

Temperature-programmed reduction of Ni-Mo oxides

Joaquín L. Brito, Jorge Laine, Kerry C. Pratt

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

103 Citas (Scopus)

Resumen

Temperature-programmed reduction (TPR) has been employed to study Ni-Mo mixed oxides which were previously used as model hydrodesulphurization (HDS) catalysts, using compositions ranging from pure MoO₃ to pure NiO. An assignment of TPR signals to the different bulk phases was attempted. Good agreement between TPR spectra and structural data obtained previously from X-ray and electron diffraction was observed. TPR traces were consistent with proposed mechanisms of reduction of the bulk oxides MoO₃, MoO₂, NiO and NiMoO₄. The variations in TPR spectra were interpreted in terms of effects such as crystallite size, ageing of the samples, hydrous state and chemical interactions between the different species. The significance of these reducibility results for HDS catalysis is discussed.

Idioma original	Inglés
Páginas (desde-hasta)	425-431
Número de páginas	7
Publicación	Journal of Materials Science
Volumen	24
N.º	2
DOI	https://doi.org/10.1007/BF01107422
Estado	Publicada - feb. 1989
Publicado de forma externa	Sí

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title = "Temperature-programmed reduction of Ni-Mo oxides",

abstract = "Temperature-programmed reduction (TPR) has been employed to study Ni-Mo mixed oxides which were previously used as model hydrodesulphurization (HDS) catalysts, using compositions ranging from pure MoO3 to pure NiO. An assignment of TPR signals to the different bulk phases was attempted. Good agreement between TPR spectra and structural data obtained previously from X-ray and electron diffraction was observed. TPR traces were consistent with proposed mechanisms of reduction of the bulk oxides MoO3, MoO2, NiO and NiMoO4. The variations in TPR spectra were interpreted in terms of effects such as crystallite size, ageing of the samples, hydrous state and chemical interactions between the different species. The significance of these reducibility results for HDS catalysis is discussed.",

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T1 - Temperature-programmed reduction of Ni-Mo oxides

AU - Brito, Joaquín L.

AU - Laine, Jorge

AU - Pratt, Kerry C.

PY - 1989/2

Y1 - 1989/2

N2 - Temperature-programmed reduction (TPR) has been employed to study Ni-Mo mixed oxides which were previously used as model hydrodesulphurization (HDS) catalysts, using compositions ranging from pure MoO3 to pure NiO. An assignment of TPR signals to the different bulk phases was attempted. Good agreement between TPR spectra and structural data obtained previously from X-ray and electron diffraction was observed. TPR traces were consistent with proposed mechanisms of reduction of the bulk oxides MoO3, MoO2, NiO and NiMoO4. The variations in TPR spectra were interpreted in terms of effects such as crystallite size, ageing of the samples, hydrous state and chemical interactions between the different species. The significance of these reducibility results for HDS catalysis is discussed.

AB - Temperature-programmed reduction (TPR) has been employed to study Ni-Mo mixed oxides which were previously used as model hydrodesulphurization (HDS) catalysts, using compositions ranging from pure MoO3 to pure NiO. An assignment of TPR signals to the different bulk phases was attempted. Good agreement between TPR spectra and structural data obtained previously from X-ray and electron diffraction was observed. TPR traces were consistent with proposed mechanisms of reduction of the bulk oxides MoO3, MoO2, NiO and NiMoO4. The variations in TPR spectra were interpreted in terms of effects such as crystallite size, ageing of the samples, hydrous state and chemical interactions between the different species. The significance of these reducibility results for HDS catalysis is discussed.

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DO - 10.1007/BF01107422

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SN - 0022-2461

VL - 24

SP - 425

EP - 431

JO - Journal of Materials Science

JF - Journal of Materials Science

IS - 2

ER -

Temperature-programmed reduction of Ni-Mo oxides

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