Modulating the active phase structure of NiMo/Al2O3 by La modification for ultra-deep hydrodesulfurization of diesel

Herein, a series of mesoporous NiMo/LaAlOx with various La contents were constructed through a solvent evaporation-induced self-assembly protocol, and their catalytic activities were investigated for hydrodesulfurization (HDS) of 4,6-DMDBT. It has been confirmed that the incorporation of La influences the electronic structure and morphology of NiMoS active phase. The lower amount of La (x <= 1.0 wt.%) could facilitate the formation of Type II NiMoS phase by weakening the interaction of Mo-O-Al leakage and promoting the sulfidation of both Mo and Ni species as well as increasing the ratio of Type II NiMoS phase, thereafter boosting the HDS performances. Further increasing La incorporation, however, leads to the generation of inactive NiSx phase and decrease of NiMoS active phase proportion, the HDS activities of corresponding catalysts were suppressed. NiMo/LaAlOx-1.0 exhibits the highest activity for 4,6-DMDBT HDS because of its moderate metal-support interaction, optimal morphology and the largest proportion of Type II NiMoS active phase.

Automated summary

A series of mesoporous NiMo/LaAlOx catalysts with different La contents were synthesized using a solvent evaporation-induced self-assembly method. It was found that the incorporation of La affected the electronic structure and morphology of the NiMoS active phase. A lower amount of La resulted in improved catalytic activity by promoting the formation of the Type II NiMoS phase. However, higher La incorporation led to the generation of inactive phases and a decrease in the proportion of the NiMoS active phase.