Microwave effects on NiMoS and CoMoS single-sheet catalysts

Abstract

Single-sheet nanoclusters of MoS₂, NiMoS or CoMoS are widely used in hydrodesulfurization (HDS) catalysis in the petroleum industry. In HDS reactions under microwave irradiation, experiments indirectly pointed out that for pristine MoS₂ reaction rates are accelerated because hot spots are generated on the catalyst bed. In this work, we investigated NiMoS and CoMoS isolated single-sheet substituted catalysts before and after thiophene adsorption focusing on quantifying the effect of microwave irradiation. For that purpose, density functional theory (DFT) molecular charge densities of each system were decomposed according to the distributed multipole analysis (DMA) of Stone. Site dipole values of each system were directly associated with a larger or smaller interaction with the microwave field according to a proposed general approach. We showed that microwave enhancement of HDS reaction rates can occur more efficiently in the CoMoS and NiMoS promoted clusters compared to pristine MoS₂ in the following order: CoMoS > NiMoS > MoS₂. The atomic origin of the catalyst hot spots induced by microwaves was clearly established in the promoted clusters.

Keywords: Distributed multipole analysis (DMA) of the charge density; Hydrodesulfurization (HDS); Microwave effects on HDS; MoS2 catalysts; Ni and Co MoS2 substituted catalysts; Thiophene adsorption.