Abstract

Abstract The anodic polarization behavior of copper was studied in 400-g/L and 700 g/L (4.61 M and 8.06 M) lithium bromide (LiBr) solutions between 25°C and 40°C. In all cases, an initial active region of copper dissolution was followed by a decrease in current density. In the 400-g/L LiBr solutions, four anodic current peaks were observed, whereas in the 700-g/L LiBr solutions, only two well-defined peaks were observed. The low-activation energy values obtained for the copper dissolution process in the 400-g/L and 700-g/L LiBr solutions were consistent with the formation of poorly structured thin passive layers via a diffusion-controlled metal electrodissolution process. The anodic polarization behavior of copper in the 400-g/L and 700-g/L LiBr solutions at 25°C was compared with the respective Pourbaix diagrams (potential-pH diagrams). In the 400-g/L LiBr solution (pH = 6.80), the initial anodic dissolution region exhibited Tafel behavior attributed to the formation of CuBr2− complexes. At higher potent...

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