Co₃O₄-SnO₂ hybrid oxides were prepared by the coprecipitation method and were used to oxidate methane (CH₄) in presence of oxygen. The Co₃O₄-SnO₂ with a molar ratio of Co/(Co+Sn) at 0.75 exhibited the highest catalytic activity among all the Co₃O₄-SnO₂ hybrid oxides. Experimental results showed that the catalysts were considerably stable in the CH₄ combustion reaction, and were verified by X-ray photoelectron spectra (XPS). It was found that Co₃O₄ was the active species, and SnO₂ acted as a support or a promoting component in the Co₃O₄-SnO₂ hybrid oxides. The surface area was not a major factor that affected catalytic activity. The hydrogen temperature-programmed reduction (H₂-TPR) results demonstrated that the interaction between cobalt and tin oxides accelerated the mobility of oxygen species of Co₃O₄-SnO₂, leading to higher catalytic activity.