A nano-scale Pt/C electrocatalyst for oxygen reduction in PEM fuel cells was prepared by alcohol-mediated reduction of the PtCl(6)(2-) ion complex on the carbon Vulcan XC-72. The effects of various parameters, including the types of precursor and reducing agent and their concentrations, the initial solution pH and the reaction time, were explored. The preliminary results indicated that the electrocatalyst prepared using ammonium hexachloroplatinate ((NH(4))(2)PtCl(6)) as the Pt(2+) source provided a similar catalytic efficiency as that prepared from hexachloroplatinic acid (H(2)PtCl(6)). The nano-scale Pt/C electrocatalyst prepared using methanol (CH(3)OH) as a reducing agent provided the smallest sized platinum particles with a uniform distribution in the nanometer range, a good particle dispersion and a high Pt content compared with that prepared using ethanol (C(2)H(5)OH) or 2-propanol (C(3)H(7)OH). The electrocatalyst prepared in an acidic solution yielded smaller sized platinum particles and a higher Pt content than that prepared in a basic solution. In addition, the concentration of the reducing agent and reaction time slightly affected both the Pt particle size and the Pt yield of the obtained electrocatalyst. Under apparent optimal conditions, the nano-scale Pt/C electrocatalyst had an electrochemical surface area of similar to 39.7 m(2)/g, which was similar to 1.9-fold higher than that of the commercial one. The performance of the electrocatalyst was also tested in a single PEM fuel cell in a H(2)/O(2) atmosphere where compared to a commercial electrode a lower activation loss but higher ohmic loss was observed. (C) 2010 Elsevier Ltd. All rights reserved.