Keywords: 
• modified electrode /
• meshed Ti /
• electrochemical deposition /
• cyclic voltammetry /
• scanning electron microscope

Abstract: Meshed Ti was used as substrate material. Palladium/titanium (Pd/Ti), palladiumnickel/titanium (Pd-Ni/Ti) and palladiumnickel/polymeric pyrrole film/ titanium (Pd-Ni/PPy/Ti) electrodes were prepared by the electrochemical deposition, and the effects of different modification on electrochemical catalytic activity were studied. Cyclic voltammetry results reveal that under the optimum preparation conditions of Pd/Ti electrode, the hydrogen adsorption peak of -59.47 mA was obtained at about -500 mV (vs Hg/Hg2SO4);the hydrogen adsorption peak on PdNi/Ti electrode of -64.40 mA was obtained with the addition of Ni, and the electrochemical character of PdNi bimetal on meshed titanium electrode was better; the hydrogen adsorption peak of PdNi/PPy/Ti electrode was the largest of -80.14 mA with the addition of PPy, and its electrochemical catalytic activity was the best. Scanning electron microscope (SEM) images reveal that Ni and PPy change the surface morphology of electrodes. The quantity of the Pd and Ni on PdNi/Ti and Pd-Ni/PPy/Ti electrodes was analyzed by means of atomic emission spectrometry (AES). Because of the addition of Ni and pyrrole, the quantity of Pd was reduced greatly for the preparation of PdNi/PPy/Ti electrode，however, the electrochemical catalytic activity and the potential of reductive dechlorination was high.