CHARACTERIZATION OF PURE AND SULFIDED NIMOO4 CATALYSTS USING SYNCHROTRON-BASED X-RAY-ABSORPTION SPECTROSCOPY (XAS) AND TEMPERATURE-PROGRAMMED REDUCTION (TPR)
S. Chaturvedi et al., CHARACTERIZATION OF PURE AND SULFIDED NIMOO4 CATALYSTS USING SYNCHROTRON-BASED X-RAY-ABSORPTION SPECTROSCOPY (XAS) AND TEMPERATURE-PROGRAMMED REDUCTION (TPR), Catalysis letters, 51(1-2), 1998, pp. 85-93
This study aims at characterizing the properties of pure and sulfided
NiMoO4 catalysts using synchrotron-based near-edge X-ray absorption fi
ne structure (NEXAFS) and temperature-programmed reduction (TPR). Mo L
-II-edge and M-III-edge NEXAFS spectra indicate that on reaction with
H2S, the Mo component of NiMoO4 gets partially reduced with the format
ion of MoS2 type species. For the beta-phase of NiMoO4, the sulfidatio
n of Mo is more extensive than for the ct-phase, making the former a b
etter precursor for catalysts of hydrodesulfurization (HDS) reactions.
The Ni Lu-edge features are relatively insensitive to the changes acc
ompanying the partial sulfidation of NiMoO4. The sulfidation of the Ni
component is confirmed by analysis of the Ni K-edge extended X-ray ab
sorption fine structure (EXAFS) spectra which show the formation of Ni
-S bonds (bond length similar to 2.48 Angstrom) and a NiMoSx phase. Th
e S K-edge NEXAFS spectra show the presence of at least two types of s
ulfur species, one associated with a formal oxidation state of 2- and
another associated with a formal oxidation state of 6+. We attribute t
he former to the presence of metal-sulfur bonds (MoSx and NiSy). The l
atter is associated with the formation of S-O bonds (SO42-). The forma
tion of sulfates is also supported by the O K-edge NEXAFS spectra. The
partially sulfided NiMoO4 catalysts (both alpha- and beta-isomorphs)
have a much lower thermal stability in a reducing environment than pur
e NiMoO4 and MoS2. The sulfided molybdates react with H-2 in TPR produ
cing H2O and H2S at temperatures above 400 K.