Cathodic behaviour of samarium(III) in LiF–CaF2 media on molybdenum and nickel electrodes
Résumé
The electrochemical behaviour of SmF3 is examined in molten LiF–CaF2 medium on molybdenum and nickel electrodes. A previous
thermodynamic analysis suggests that the reduction of SmF3 into Sm proceeds according to a two-step mechanism:
SmIII +e− = SmII
SmII +2e− = Sm
The second step occurs at a potential lower than the reduction potential of Li+ ions.
Cyclic voltammetry, chronopotentiometry and square-wave voltammetry were used to confirm this mechanism and the results show that
it was not possible to produce samarium metal in molten fluorides on an inert cathode (molybdenum) without discharging the solvent. The
electrochemical reduction of SmF3 is limited by the diffusion of SmF3 in the solution. The diffusion coefficient was calculated at different
temperatures and the values obtained obey Arrhenius’ law.
For the extraction of the samarium from fluoride media, the use of a reactive cathode made of nickel leading to samarium–nickel alloys
is shown to be a pertinent route. Cyclic voltammetry and open-circuit chronopotentiometry were used to identify and to characterise the
formation of three alloys: liquid Sm3Ni and a compact layer made of SmNi3 and SmNi2.