The purpose of this research is to investigate Au/CeO2 which is prepared by deposition-precipitation method (DP method) with high CO conversion under low temperature water-gas-shift reaction (WGSR). Preparation factors listed below are studied: (1) CeO2 surface modification by NaOH(aq); (2) pH value of gold solution for deposition; (3) pretreatment of Au/CeO2 before water-gas-shift reaction; (4) Au/CeO2 storage effect. Additionally, the properties of the catalysts are characterized by AA, UV-Vis, HRTEM, XRD. The experimental results indicate that CeO2 with surface modification to pH=6 ~ 8 possesse the better performance; however, the CO conversion would decrease when the CeO2 with surface modification to pH=10 or without surface modification. The better pH value for the gold solution for deposition is 9, because the four Cl－ in the solution could be ideally replaced by OH-. Au/CeO2 pretreated before reaction by CO at 200oC has the best CO conversion, because of the smallest particle size of gold particles. Finally, Au/CeO2 needs to store under low temperature without light (i.e., in a refrigerator) to protect against decay. For the tests of water-gas-shift reaction, the total flow rate and reaction temperature were carried out at 33.33ml/min and 200℃. Two mole flow rate ratios at reactor inlet : (1)CO/H2O/N2 = 2.65/41.17/56.18；(2) CO/H2O/H2/CO2=2.65/41.17/ 44.94/11.24 were used. For the best performance Au/CeO2 catalyst prepared in this research, CO conversion of condition (1) was 98%, which is approaching the equilibrium conversion obtained from thermodynamics simulation; however, CO conversion of condition (2) could only reach 73%. This implies there is still much room to improve the performance of the catalyst in the future.