Combined pyro-hydrometallurgical technology for recovering valuable metal elements from spent lithium-ion batteries: a review of recent developments

TL;DR: This review synthesises and optimises functionalised adsorption materials for lithium-ion extraction, discussing adsorbent properties, selective adsorption mechanisms, and preparation schemes, while proposing optimisation techniques and future development directions for industrial applications.

TL;DR: A systematic review of efficient recycling processes for cathode materials of spent lithium-ion batteries highlights the need for process intensification technologies beyond traditional methods to address the growing volume of spent LIBs.

TL;DR: Greener batteries aim to reduce environmental impact and promote sustainable battery technologies for future generations.

TL;DR: A multi-vacuum-pyrolysis approach offers a closed-loop route for the management of spent LIBs without using any hazardous chemicals and reaches over 93% for Li and 99% for Co.

TL;DR: The results indicated that the reactions happened to the electrode materials (LiCoO2, C) were mainly in the range of 500-800 °C and the corresponding activation energies obtained were 389.61 and 405.67 kJ/mol respectively.

TL;DR: In this paper, a novel and environmentally friendly process for utilizing spent lithium-ion batteries based on salt roasting is proposed, where separated cathode material is roasted with NH4Cl as a fluxing agent.

TL;DR: In this article, the best experimental conditions for leaching cobalt ions in a sulphuric acid-hydrogen peroxide system are studied, and the best leaching operation condition is an H2SO4 concentration of 3.0 mol L−1, liquid-solid ratio of 7 : 1 and hydrogen peroxide dosage of 1.6 mL g−1 for 2.5 h at 70 °C.