Silica-dispersed NiMo hydrodesulfurization catalysts were synthesized by the deposition-precipitation method. For comparative purposes,bulk NiMo catalysts were obtained by co-precipitation.The silica-dispersed NiMo catalyst had highly active metals content.Silica was employed to disperse active metals for full utilization of active components.The BET analysis showed that the silica-dispersed NiMo catalysts had a high surface area(147.0m~2/g) and pore volume(0.27 mL/g),whereas the bulk NiMo catalysts exhibited a very low surface area(87.5 m~2/g).Transmission electron microscopy results proved that the active components were dispersed on the SiO_2 substrate.X-ray diffraction patterns of the silicadispersed NiMo catalyst and the bulk NiMo catalyst were indexed to NiMoO_4.The hydrodesulfurization activity of silicadispersed NiMo catalysts was much higher than that of reference catalysts and could be up to twice greater than those of commercial NiMo alumina-supported systems per gram of catalyst.The activity testing results also demonstrated that the silica-dispersed NiMo catalyst was an effective hydrodesulfurization catalyst. Silica-dispersed NiMo hydrodesulfurization catalysts were synthesized by the deposition-precipitation method. Bulk NiMo catalysts were obtained by co-precipitation. The silica-dispersed NiMo catalyst had highly active metals content. Silica was employed to disperse active metals for full utilization of active components. The BET analysis showed that the silica-dispersed NiMo catalysts had a high surface area (147.0 m 2 / g) and pore volume (0.27 mL / g), the bulk NiMo catalysts exhibited a very low surface area (87.5 m 2 / g). Transmission electron microscopy results proved that the active components were dispersed on the SiO 2 substrate. X-ray diffraction patterns of the silicadispersed NiMo catalyst and the bulk NiMo catalyst were indexed to NiMoO 4. The hydrodesulfurization activity of silicadispersed NiMo catalysts was much higher than that of reference catalysts and could be up to twice greater than those of commercial NiMo alumina-supported systems per gram of cat alyst. The activity testing results also demonstrate that the silica-dispersed NiMo catalyst was an effective hydrodesulfurization catalyst.