Electrode reaction of Pr on Sn electrode and its electrochemical recovery from<scp>LiCl‐KCl</scp>molten salt
Wei Han, Wei Wang, Yongqiang Zhang, Yijie Wang, Mei Li, Yang Sun
Abstract
To recover Pr from molten chlorides, the electrode reactions of Pr3+ on Sn-coated W and liquid Sn electrodes were studied by a group of electrochemical techniques. CV and SWV results exhibited that the electrochemical signals pertaining to the formation of Pr-Sn alloy compounds and solid solution appeared at less negative potentials than that of Pr3+ on W electrode. The thermodynamic data of Pr-Sn alloy compounds and the kinetic parameters for PrSn3/Pr3+ pair were determined employing OCP, LP, and Tafel methods, separately. The measured diffusion coefficient (D) of Pr in liquid Sn metal was 9.40 × 10−6 cm2 s−1. Furthermore, the electrochemical recovering Pr from molten salt was performed using liquid Sn as a working electrode, and the formed Pr-Sn samples characterized by XRD and SEM-EDS were composed of Sn and PrSn3 phases.