In this work silica-support copper catalysts were investigated for partial oxidation of methanol (CH3OH + 1/2O2 → 2H2 + CO2) to produce hydrogen. Cu/SiO2 catalysts prepared by deposition-precipitation method with different loadings were studied in detail. The structural characteristics of Cu/SiO2 were analysed by ICP-MS, TGA, TPR, N2O,XRD, SEM, TEM, and XPS. This catalysts show high activity for POM.The kinetic results show that the catalyst with 8.7wt%Cu/SiO2 exhibits the highest H2 selectivity and lowest CO selectivity than other catalysts.N2O adsorption chemisorption was used to monitor the surface area and particle size. The size of the copper particles increases from 1.3 nm to 3.4 nm with increasing loadings. TPR measurements revealed that the reduction temperature of CuO shifts to the lower temperature with increase in the calcination temperature. The position of TPR peak shifts to the lower temperature suggesting the reducibility of CuO was promoted;XPS analyses demonstrated that Cu0 in catalysts is an active specie, but Cu2+ is not during the POM reaction. The activity of the catalyst is linearly dependent on the metallic copper surface area. All the results conclude that silica-support copper catalysts have highly copper dispersion and metallic copper surface area. The Cu/SiO2 catalysts display great activity for the conversion of methanol to produce hydrogen.