The novel Sn-doped Ti/PbO 2 (Ti/PbO 2 –Sn) anodes have been prepared by cathodic deposition and anodization processes. The effect of Sn content on the structure and electrocatalytic performance of Ti/PbO 2 –Sn anodes has been studied. The surface coating structure and composition of the anodes were characterized by SEM, EDX and XRD. The results reveal that a limited amount of doping Sn can improve the coating structure of the PbO 2 layer, and an over-doping of Sn has an adverse effect on the coating structure and crystallinity of β-PbO 2 . Linear polarization curves analysis shows that the novel Ti/PbO 2 –Sn anodes have higher oxygen evolution overpotential when compared to pure Ti/PbO 2 electrode. The performance of electrodes for the electrochemical degradation of a model pollutant (phenol) was enhanced using the Ti/PbO 2 –Sn anode. The effects of current density, initial pH and supporting electrolyte on the electrochemical degradation of phenol by Ti/PbO 2 –Sn electrode were investigated.