Unraveling the redox behavior of a CoMoS hydrodesulfurization catalyst: A scanning transmission X-ray microscopy study in the tender X-ray range
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2015-02-05
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Abstract
We visualize the elemental zoning in an alumina-supported cobalt molybdenum sulfide (CoMoS) catalyst with scanning transmission X-ray microscopy (STXM). We use the Canadian Light Source beamline 10-ID's (SM) unique combination of soft X-ray and tender X-ray STXM to determine the spatial variation of Co, Al, Mo, and S species. The results clearly show the correlation between cobalt and molybdenum and the anticorrelation between cobalt and alumina, confirming that Co is closely associated with the MoS2 phase. The tender X-ray STXM images show that the fresh catalyst particle contains a 50 nm ring of molybdenum oxide encapsulating the supported MoS2 phase. After the reduction at 200 °C with H2, this oxide rim disappears and a uniform MoS2 distribution is found. Upon oxidation at 400 °C, the sulfur disappears from the catalyst sample and molybdenum is oxidized from a MoIV sulfide to a mainly tetrahedral MoVI oxide, while cobalt keeps its divalent nature and changes from a CoII sulfide to a CoII oxide.
Keywords
Taverne, Physical and Theoretical Chemistry, Electronic, Optical and Magnetic Materials, Surfaces, Coatings and Films, General Energy
Citation
Al Samarai, M, Meirer, F, Karunakaran, C, Wang, J, Vogt, E T C, Zandbergen, H W, Weber, T, Weckhuysen, B M & De Groot, F M F 2015, 'Unraveling the redox behavior of a CoMoS hydrodesulfurization catalyst : A scanning transmission X-ray microscopy study in the tender X-ray range', Journal of Physical Chemistry C, vol. 119, no. 5, pp. 2530-2536. https://doi.org/10.1021/jp510802p