Endogenous advanced oxidation process with peracetic acid for recycling spent LiFePO 4 batteries

LiFePO 4 batteries are becoming more widely used due to their low cost and high stability advantages, which means that many spent batteries are generated. Designing green and efficient recycling methods for used batteries is strategically significant for the sustainable development of the new energy industry. This study innovatively proposes a self -activated advanced oxidation process with peroxyacetic acid for recycling spent LiFePO 4 , selectively releasing Li + while converting LiFePO 4 to FePO 4 . Quenching tests show that the de -embedding of Li + is mainly caused by the rapid attack from HO center dot and R -O center dot radicals. Furthermore, the recycled products Li 2 CO 3 and FePO 4 are employed to regenerate LiFePO 4 cathode materials, forming a closed -loop recycling process. Compared with traditional hydrometallurgy and hydrogen peroxide oxidation methods, this technology has obvious advantages in terms of process complexity, energy consumption, reagent consumption, recovery profit, and environmental friendliness. This work opens up a new way for the recycling of spent lithium -ion batteries.