Mixed-metal oxide catalysts consisting of iron-antimony and iron-tin were studied for the selective oxidation of hydro en sulfide to sulfur. Catalytic properties of these catalysts changed significantly with the catalyst composition and catalytic synergistic phenomena were observed for the binary oxides within certain composition ranges. For iron-antimonate catalysts, FeSbO4 catalyst having excess Fe2O3 (i.e., iron-rich catalysts) showed significantly better catalytic performances than the corresponding single oxide catalysts. For iron-tin catalysts, the maximum sulfur yield was obtained when iron and tin were in a molar ratio of one to one. A possible explanation for the catalytic synergistic behavior observed in H2S oxidation was "remote control" mechanism, which assumed that mobile oxygen produced from Fe2O3, migrated to the surface of FeSbO4 or SnO2, created new active sites and improved the catalytic performances. For single iron oxide catalyst, large differences as to catalytic performance, surface area, and phase structure were found when the catalyst precursors (i.e., iron salts) were deposited in the media of different acids (nitric acid and oxalic acid).