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Anode electrolysis of sulfides

Jiakang Qu, Xiang Chen, Hongwei Xie, Shuaibo Gao, Dihua Wang, Huayi Yin

2022Proceedings of the National Academy of Sciences47 citationsDOIOpen Access PDF

Abstract

Traditional sulfide metallurgy produces harmful sulfur dioxide and is energy intensive. To this end, we develop an anode electrolysis approach in molten salt by which sulfide is electrochemically split into sulfur gas at a graphite inert anode while releasing metal ions that diffuse toward and are deposited at the cathode. The anodic splitting dictates the “sulfide-to-metal ion and sulfur gas” conversion that makes the reaction recur continuously. Using this approach, Cu 2 S is converted to sulfur gas and Cu in molten LiCl-KCl at 500 °C with a current efficiency of 99% and energy consumption of 0.420 kWh/kg −Cu (only considering the electricity for electrolysis). Besides Cu 2 S, the anode electrolysis can extract Cu from Cu matte that is an intermediate product from the traditional sulfide smelting process. More broadly, Fe, Ni, Pb, and Sb are extracted from FeS, CuFeS 2 , NiS, PbS, and Sb 2 S 3 , providing a general electrochemical method for sulfide metallurgy.

Topics & Concepts

ElectrolysisAnodeSulfideMolten saltSulfurInorganic chemistryElectrochemistryCathodeMaterials scienceChemistryMetallurgySmeltingElectrodeElectrolytePhysical chemistryMolten salt chemistry and electrochemical processesMetal Extraction and BioleachingExtraction and Separation Processes
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