Method for producing core-shell catalyst

What is claimed is: 1. A method for producing a catalyst, comprising: (i) mixing a core metal salt that serves as a material for a core metal, and a complexing agent (a) to produce a core metal complex solution containing a core metal complex; (ii) mixing a shell metal salt that serves as a material for a shell metal, and a complexing agent (b) to produce a shell metal complex solution containing a shell metal complex; (iii) mixing a carbon powder and a dispersing agent to produce a carbon powder dispersion; (iv) mixing the core metal complex solution, the shell metal complex solution, and the carbon powder dispersion simultaneously, and reducing the core metal complex on the carbon powder, next, the shell metal complex on the core metal complex by using at least one reducing agent and by using that the rate of reduction of the core metal complex is larger than that of the shell metal complex; and (v) drying and baking at a predetermined temperature the carbon powder resulting from Step (iv), said carbon powder having a core-shell structure that comprises the core metal and the shell metal, wherein the dispersing agent is the same as the complexing agent (b) and both dispersing agent and the complexing agent (b) are hexadecyltrimethylammonium bromide (CTAB), wherein the complexing agent (b) is different from the complexing agent (a), wherein a combination of the material of the complexing agent (a), the material of the complexing agent (b) and a material of the dispersing agent, cause a charge, positive or negative, of the core metal complex to differ from a charge, positive or negative, of the surface of the carbon powder treated with the dispersing agent, such that the core metal complex is adsorbed onto the carbon powder due to electrostatic adsorption. 2. The method for producing a catalyst according to claim 1 , wherein an oxidation-reduction potential of the core metal complex is controlled so as to be larger than an oxidation-reduction potential of the shell metal complex. 3. The method for producing a catalyst according to claim 1 , wherein a complex-production constant for the shell metal complex is controlled so as to be larger than a complex-production constant for the core metal complex. 4. The method for producing a catalyst according to claim 1 , wherein the core metal is copper. 5. The method for producing a catalyst according to claim 1 , wherein the shell metal is platinum. 6. The method of producing a catalyst according to claim 1 , wherein in Step (iv), a reduction rate of the core metal complex is larger than a reduction rate of the platinum group metal complex by the condition of pH. 7. The method for producing a catalyst according to claim 1 , wherein in Step (iv), a reduction rate of the core metal complex is larger than a reduction rate of the platinum group metal complex by selecting the complexing agents.