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Abstract An in-situ formed three-layered scale consisting of a Cu-rich layer and two oxide layers on the surface of Ni10Cu11Fe alloy enables an inert anode for oxygen evolution reaction in… Click to show full abstract
Abstract An in-situ formed three-layered scale consisting of a Cu-rich layer and two oxide layers on the surface of Ni10Cu11Fe alloy enables an inert anode for oxygen evolution reaction in molten Na 2 CO 3 -K 2 CO 3 . The outermost layer is mostly NiFe 2 O 4 , the middle layer mainly consists of NiO, and the innermost is a Cu-rich metal layer. The dense NiFe 2 O 4 layer is resistant to molten salts and prevents O 2− diffusing inwards, the middle NiO layer conducts electrons and functions as a buffer layer to increase the mechanical robustness of the whole scale, and the third copper-rich layer could help to slow down the oxidation rate of the alloy. This low-cost inert anode with a multi-layered scale is able to survive for more than 600 h in molten Na 2 CO 3 -K 2 CO 3 electrolysis cell, generating O 2 and thereby enabling a carbon-free electrometallurgical process.
Journal Title: Electrochimica Acta
Year Published: 2018
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