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Abstract

The anodic oxidation of mercury in the presence of methane-1,1-bis-mercaptoacetic acid (MBMA) has been studied by DC_r, DP, AC₁, and AC₂ polarography, cyclic voltammetry, and coulometry. The electrode process is controlled by the adsorption of the product formed according to: Hg + 2 H_(2-n)L^n- → H_(2-n)HgL₂^n- + (2-n) H⁺ + 2e with n = 0 at pH < pK₁, n = 1 at pK₁ < pH < pK₂, and n = 2 at pH > pK₂. No adsorption of MBMA is observed. The behaviour of MBMA at a hanging mercury drop electrode (HMDE) by cathodic stripping voltammetry (CSV) has been also studied. At MBMA concentrations above 1 10^-6 mol l^-1, the stripping voltammograms showed two well defined peaks, at c. -0.140 V and at c. -0.300 V. The anodic process occurring during the pre-electrolysis in CSV is described by the formation of a Hg(I) compound: 2 Hg + 2 H_(2-n)L^n- → H_(2-n)Hg₂L₂^(2-2n)+ + 2e followed by its disproportionation: H_(2-n)Hg₂L₂^(2-2n)+ →c H_(2-n)HgL₂^(2-2n)+ + Hg,
where n has the above-mentioned values.