In this study, Pt-Ni binary alloy catalysts supported on carbon nanotubes (PtNi/CNTs) were developed for enhancing the oxygen reduction reaction (ORR) efficiency for proton exchange membrane fuel cell (PEMFC) application by electrodeposition procedure. The CNTs were directly grown on carbon cloths by chemical vapor deposition method and the specimen were treated with hydrophilic process. The nickel nanoparticles were deposited on CNTs by pulse electro-planting in acid solution, and then the platinum particles were reduced on them by pulse electro-planting in base solution to form binary alloy catalysts. Electrochemical characteristics of the PtNi/CNTs catalyst were investigated via cyclic voltammetry analysis and rotating disk electrode test in 0.1 M perchloric acid. Structure and elementary composition were measured by SEM, XPS and ICP-MS. In ORR test, the limiting current density of PtNi/CNTs could reach to 24 mA/cm^2, while that of commercial Pt/C was 10 mA/cm^2. It was found that the limiting current density and onset potential of PtNi/CNTs specimen were better than those of commercial Pt/C specimen. The outcome signified better PtNi alloy catalyst in adsorption and desorption behavior of oxygen to increase the ORR rate.