Abstract:The electrochemical oxidation process of enargite in solution at pH=9.2, and influence of potential on the chemical composition of surface phase were studied by cyclic voltammetry (CV) and X-ray photoelectron spectroscopy (XPS). The results show that the primary oxidation process relates to the formation of copper-deficient(Cu_3-xAsS₄) sulfide induced by the dissolution of partial Cu into solution mainly occurs on enargite at the oxidation potential of 0.17 V (in the potential range of oxidation peak A1), and these is no Cu(Ⅱ) oxidation products existed in the surface film of enargite. A small amount of forms through the S oxidation, and the As oxidation do not occur. When the oxidation potential increases to 0.3V(in the potential range of oxidation peak A2), plenty of Cu left the surface of sample and dissolves into solution. There are still no existence of the oxidation products of Cu(Ⅱ). A small amount of CuSO₄ might exist, but its content is below low limit of detection. The S^n- phase is present in the surface film, but there are no existence of the oxidation products of As. The oxidation and deposition processes of Cu and As occur at the oxidation potential of 0.5 V (in the potential range of oxidation peak A2), and it results in the formation of the Cu(Ⅱ) oxidation products(Cu(OH)₂ and CuSO₄) and As₂O₃. Additionally, some S^n- phase is still present in the surface film. A certain amount of Cu(Ⅱ) oxidation product of Cu(OH)₂ and CuSO₄, are formed on sample when the oxidation potential increases to 0.8V(in the potential range of oxidation peak A3). The As element is still present in the form of As₂O₃ and parts of S element exists in the form of besides some S element is oxidized to CuSO₄.

Key words: electrochemical oxidation; enargite; hydrophilic phase; hydrophobic phase; XPS