With the advancement of technology and the enhancement in population, energy issues have attracted the attention of countries in recent years, the fuel cell has the functions of anode electricity generation and cathode wastewater purification, the cathode system combined with the advanced oxidation processes of Electro-Fenton, which can construct self-holding mechanism; the characteristics of electrode are the key factors affecting performance of the Electro-Fenton system. Titanium has good corrosion resistance and stability; carbon nanotubes have good electrical conductivity and high specific surface area; bismuth possesses good electrochemical activity, all of these are suitable to apply to electrode. In this study, composite electrodes were prepared on the surface of titanium by different electrodeposition times, and the experimental results were carried out by: (1) SEM surface observation; (2) contact angle measurement to analyze the hydrophilicity for surface; (3) linear sweep voltammetry to evaluate the ability to generate H_2O_2 for cathode; (4) cyclic voltammetry to calculate the active area for each electrode; (5) Tafel extrapolation to measure the corrosion resistance for electrode; (6) decolorization test for Rhodamine B in Electro-Fenton system. The results show that the composite electrode prepared at 5 min by electrodeposition exhibited the best performance, which the decolorization rate of the Electro-Fenton system can reach 68.5 % in 30 min. It is expected that results will provide reference for the cathode application of the Electro-Fenton system in future.