Influence of Nd-doping on the degradation performance of Ti/Sb-SnO2 electrode

Ti/Sb/SnO2 electrodes doped with Nd in different proportions were prepared by thermal decomposition method. The effect of Nd-doping amount on the electrocatalytic oxidation activity and stability of the electrode was examined. The surfaces of the prepared electrodes were characterized by X-ray diffraction, scanning electron microscope and energy spectrometer. The electrochemical performance of the electrodes was measured by cyclic voltammetry, linear sweep voltammetry and electrochemical impedance spectroscopy. The results showed that the Ti/Sb/SnO2-Nd layer doped with 1% Nd on electrode had better crystallinity. For this electrode, the voltampere charge increased to 8.93 mC/cm(2), which was about twice that of Ti/Sb/SnO2 electrode. The oxygen evolution potential was increased from 2.07 V without Nd-doping to 2.30 V, and the service life was extended from 1000 h without Nd-doping to 1332 h, which was extended by more than 30%. The acid red 18 (AR 18) degradation efficiency of the Ti/Sb/SnO2-Nd electrode doped with 1% Nd after 1 h of electrolysis was 95.14%, which was 20.51% higher than that of the Ti/Sb/SnO2 electrode. The Ti/Sb/SnO2-Nd electrode doped with 1% Nd had high electrocatalytic oxidation activity and good stability.

Automated summary

Ti/Sb/SnO2 electrodes doped with different proportions of Nd were prepared by thermal decomposition method, and the effect of Nd-doping amount on the electrode performance was studied. The Ti/Sb/SnO2-Nd electrode doped with 1% Nd showed improved crystallinity, higher voltampere charge, increased oxygen evolution potential, extended service life, and higher degradation efficiency compared to the Ti/Sb/SnO2 electrode without Nd-doping. Overall, the Ti/Sb/SnO2-Nd electrode doped with 1% Nd exhibited high electrocatalytic oxidation activity and good stability.