Lithium-ion batteries (LIBs) are one of the most common batteries used in Electric Vehicles (EVs) due to high energy and power density and longer-life span. Alongside EVs increased production, the demand for LIBs has risen as well. [1] For metal recovery from LIBs, end-of-life is the most used feedstock in the recycling industry, nonetheless rejected scrap from production of cathodes is also a high source of material. Production waste rates of LIBs are reported to be approximately 5% to 30%, which may vary with manufacturers. [2]

Among LIB chemistries, Nickel Manganese Cobalt (NMC) cathodes are preferred for applications that require continuous cycling. Considering their high concentrations of critical materials, such as Cobalt and Lithium, NMC recycling is crucial. [3] Electrochemical recycling of LIBs, due to its selective metal recovery, is a growing interested in recycling companies. However, because of NMC complex chemical composition the recovery rate of high purity metals from electrochemical processes is limited. [4]

This study proposes a green chemistry approach for recycling of NMC-111 production waste. A pretreatment has already been design. A treatment to selectively recover all critical materials that compose the active material are then tested and studied. Using only methanesulfonic acid as electrolyte, and NaOH for precipitation, to recover metal oxide compounds from the active material in multiple stages of the process at room temperature. The study also presents the use of a drum electrode setup as the working electrode, which increases the dissolution kinetics of the material in the electrochemical cell.