Aqueous-Phase Preparation of Model HDS Catalysts on Planar Alumina Substrates: Support Effect on Mo Adsorption and Sulfidation - Archive ouverte HAL
Article Dans Une Revue Journal of the American Chemical Society Année : 2015

Aqueous-Phase Preparation of Model HDS Catalysts on Planar Alumina Substrates: Support Effect on Mo Adsorption and Sulfidation

Résumé

The role of the oxide support on the structure of the MoS2 active phase (size, morphology, orientation, sulfidation ratio, etc.) remains an open question in hydrotreating catalysis and biomass processing with important industrial implications for the design of improved catalytic formulations. The present work builds on an aqueous-phase surface-science approach using four well-defined alpha-alumina single crystal surfaces (C (0001), A (1120), M (1010), and R (1102) planes) as surrogates for gamma-alumina (the industrial support) in order to discriminate the specific role of individual support facets. The reactivity of the various surface orientations toward molybdenum adsorption is controlled by the speciation of surface hydroxyls that determines the surface charge at the oxide/water interface. The C (0001) plane is inert, and the R (1102) plane has a limited Mo adsorption capacity while the A (1120) and M (1010) surfaces are highly reactive. Sulfidation of model catalysts reveals the highest sulfidation degree for the A (1120) and M (1010) planes suggesting weak metal/support interactions. Conversely, a low sulfidation rate and shorter MoS2 slabs are found for the R (1102) plane implying stronger Mo-O-Al bonds. These limiting cases are reminiscent of type I/type II MoS2 nanostructures. Structural analogies between alpha- and gamma- alumina surfaces allow us to bridge the material gap with real Al2O3-supported catalysts. Hence, it can be proposed that Mo distribution and sulfidation rate are heterogeneous and surface-dependent on industrial gamma-Al2O3-supported high-surface-area catalysts. These results demonstrate that a proper control of the gamma-alumina morphology is a strategic lever for a molecular-scale design of hydrotreating catalysts.

Domaines

Chimie

Dates et versions

hal-01263787 , version 1 (28-01-2016)

Identifiants

Citer

Cédric Bara, Lucie Plais, Kim Larmier, Elodie Devers, Mathieu Digne, et al.. Aqueous-Phase Preparation of Model HDS Catalysts on Planar Alumina Substrates: Support Effect on Mo Adsorption and Sulfidation. Journal of the American Chemical Society, 2015, 137 (50), pp.15915-15928. ⟨10.1021/jacs.5b10975⟩. ⟨hal-01263787⟩
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