Litcius/Paper detail

Indirect electrochemical leaching and separation of cobalt and lithium from spent LiCoO2 through recovery and reuse of sulfuric acid

Jiasi Sun, Zixuan Wang, Zhen He

2025Separation and Purification Technology9 citationsDOIOpen Access PDF

Abstract

• An innovative electrochemical-chemical system is studied for LCO battery recycling. • 100 % Li + and Co 2+ recovery is obtained within 0.5 h under optimal leaching conditions. • The system has selective Co 2+ precipitation and over 90 % Li + retention in catholyte. • Acid regeneration and reuse allows Li + and Co 2+ recovery over 7 cycles. Electrochemical technologies have great potential for extracting and recycling metals from spent lithium-ion batteries, but often rely on external acid use, require additional separation steps, or have low leaching rates. Herein, an innovative system combining electrochemical separation and chemical leaching was investigated to recover lithium and cobalt from spent LiCoO 2 (LCO) batteries. The system was able to generate and reuse sulfuric acids for multiple operational cycles by recovering SO 4 2- . Under the optimal conditions (0.25 M sulfuric acid, 80 ℃, 8 g/L solid-to-liquid ratio), 100 % of both Li + and Co 2+ were released within 0.5 h. Sulfuric acid recovery efficiency was 97.0 ± 4.5, 97.9 ± 13.1, and 94.1 ± 6.6 %, under an applied current of 150, 200 and 250 mA, respectively. Co 2+ was mostly removed as solid precipitates and over 90 % Li + remained in the soluble form in the catholyte, owing to their different behaviors in an alkaline solution. During the extended operation over ten cycles, Co and Li recovery efficiencies remained relatively stable until the cycle 7. When treating real spent LCO from the used batteries, the system achieved 94.6 % of sulfuric acid recovery, 100 % of Co 2+ precipitated, and 92 % of Li + retention. Those results encourage further exploration of electrochemical metal recovery from spent LCO batteries.

Topics & Concepts

Leaching (pedology)Sulfuric acidCobaltReuseElectrochemistryChemistryInorganic chemistryNuclear chemistryEnvironmental scienceWaste managementElectrodeEngineeringSoil waterPhysical chemistrySoil scienceExtraction and Separation ProcessesAdvancements in Battery MaterialsMetal Extraction and Bioleaching