The effects of residual chloride on supported gold for CO oxidation were studied, and the supports of the gold load on were TiO2 or Y-type zeolite in this research. The effects of post-treatment conditions on Au/TiO2 (gold supported on titania and prepared at room temperature) catalysts for CO oxidation were studied, and the effects of preparation conditions (i.e., pH of gold solution, solution temperature, and de-ionized water flushing ) on Au/Y (gold supported on Y-type zeolite) catalysts for CO oxidation were studied. The catalysts were characterized by AA, IC and HRTEM. Supported Au catalysts are generally prepared from chloride-containing Au precursors, and Au/TiO2 catalyst prepared at room temperature contains a substantial amount of residual chloride, which can poison active site and reduce the catalytic activity. For the catalysts dried at 60°C and washed by hot water at 80°C, the residual chloride can be removed effectively and the catalytic activity can be improved. However, Au loading on TiO2 would drop when the catalyst was washed in hot water first. The drop of gold loading can be reduced, if the drying process at 60°C (either with steam or not) can be carried out first. However, the catalyst which was dried at 60°C contained large gold particles. If the catalyst was dried under saturated vapor pressure, the particle growing can be limited and more chloride can be removed effectively; therefore, the resulting catalyst possessed the higher activity for CO oxidation. For the catalysts dried under saturated vapor pressure and washed by hot water at 80°C, the residual chloride can be removed effectively and the catalytic activity can be enhance the most. The gold plate was dissolved in acidic solution. The solution was used for the deposition of gold species on TiO2 at room temperature. The post treatment which dried under saturated vapor pressure and washed by hot water at 80°C were also applied. It is found that the catalytic activity can be effectively improved by the post treatment. The effects of preparation conditions (i.e., pH of gold solution, deposition temperature and de-ionized water flushing) on residual chloride, gold loading and catalytic activity of Au/Y were significant. The results show there are similar residual chloride on Au/Y catalysts with pH value of 5 and 6. Also there are similar initial CO oxidation conversion. However, the gold loading and the gold recovery percentage decreased as the pH value of the solution was increased. For the samples from the solutions at pH 5, there was higher gold loading which could cause agglomeration of gold particles and decreasing of catalytic activity during reaction. On the other hand, it was found that higher residual chloride remained on Au/Y after the lower deposit temperature (i.e., 30°C) deposition. And the sample prepared at lower temperature causes not only a decrease of gold loading but also a reduction of CO conversion, in contrast to both higher gold loading and CO conversion observed from that prepared at 80°C.