B. Delmon scite author profile

Physicochemical studies on a series of cobalt-molybdenum supported on silica catalysts containing the same amount of oxide phase with an atomic ratio r = Co/(Co + Mo) ranging from 0 to 1 and the phases obtained after reduction by hydrogen allow us a better understanding of the structure of these solids. X-ray diffraction, DRS, and XPS measurements of the oxide phase, the study of the reduction by hydrogen by use of gravimetric measurements, and ESR and DRS measurements carried out on the reduced phase show that weak interaction of the molybdenum with the silica (as compared with those on alumina) strongly modify the nature of the species presented on the support. It has been shown that cobalt and molybdenum almost stoichiometrically form C0M0O4 (a and b phases). Furthermore when Mo03 and Co304 are in excess they cover the CoMo04 crystals forming a geod structure. In conclusion, it is proposed that, when the interactions of the molybdenum with the support are weak, the CoMo "bilayer" precursor of the active sites is not easily formed. Consequently the strong interaction between cobalt and molybdenum leads to the formation of bulk CoMo04, compound which does not form, after activation, the active phase in HDS catalysts.

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XPS study of the supported phase — SiO2 interaction in Mo/SiO2 and CoMo/SiO2 hydrodesulphurization catalysts in their oxidic precursor form

Gajardo

Pirotte

Defossé

et al. 1979

Journal of Electron Spectroscopy and Related Phenomena

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Changes to the editorial board of apllied catalysis A: general and B: Environmental

Delmon¹

1994

Applied Catalysis B: Environmental

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B. Delmon

Oxydes mixtes ou en solution solide sous forme très divisée obtenus par décomposition thermique de précurseurs amorphes

Simultaneous removal of SO2/NOx from flue gases. Sorbent/catalyst design and performances

Physicochemical characterization of the interaction between cobalt molybdenum oxide and silicon dioxide. 1. Influence of the cobalt-molybdenum ratio

XPS study of the supported phase — SiO2 interaction in Mo/SiO2 and CoMo/SiO2 hydrodesulphurization catalysts in their oxidic precursor form

Changes to the editorial board of apllied catalysis A: general and B: Environmental

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