A Reflection on Sustainable Anode Materials for Electrochemical Chloride Oxidation

Abstract Chloride oxidation is a key industrial electrochemical process in chlorine‐based chemical production and water treatment. Over the past few decades, dimensionally stable anodes (DSAs) consisting of RuO 2 ‐ and IrO 2 ‐based mixed‐metal oxides have been successfully commercialized in the electrochemical chloride oxidation industry. For a sustainable supply of anode materials, considerable efforts both from the scientific and industrial aspects for developing earth‐abundant–metal‐based electrocatalysts have been made. This review first describes the history of commercial DSA fabrication and strategies to improve their efficiency and stability. Important features related to the electrocatalytic performance for chloride oxidation and reaction mechanism are then summarized. From the perspective of sustainability, recent progress in the design and fabrication of noble‐metal‐free anode materials, as well as methods for evaluating the industrialization of novel electrocatalysts, are highlighted. Finally, future directions for developing highly efficient and stable electrocatalysts for industrial chloride oxidation are proposed.