What question did this study set out to answer?

The aim is to investigate the trade-off between selectivity and efficiency in the recycling of lithium-ion battery cathodes using hydrogen bond donors.

March 22, 2026

Hydrogen Bond Donor-Mediated Selectivity-to-Efficiency Trade-Off in Sustainable Recycling of Lithium-Ion Battery Cathodes

Key Points

The aim is to investigate the trade-off between selectivity and efficiency in the recycling of lithium-ion battery cathodes using hydrogen bond donors.
Demonstrated leaching of metals from LiCoO2 cathodes in spent lithium-ion batteries.
Utilized betaine-phosphorous acid and betaine-phosphoric acid solvent systems for metal recovery.
Assessed selectivity and overall efficiency of lithium and cobalt extraction.
Achieved ultrahigh selectivity for Li/Co when using phosphorous acid as a hydrogen bond donor.
Obtained high overall recovery efficiencies for both lithium and cobalt with phosphoric acid as a hydrogen bond donor.

Abstract

Sustainable recycling of lithium-ion battery (LIB) cathodes is essential for mitigating resource depletion and environmental pollution. However, the inherent trade-off between selectivity and efficiency remains a critical barrier limiting the performance of current recycling technologies. Herein, we demonstrate that the selectivity and efficiency of metal leaching from LiCoO2 cathodes in spent LIBs can be effectively mediated by the hydrogen bond donor (HBD) in sustainable low-melting mixture solvents. Employing phosphorous acid as the HBD in a betaine:phosphorous acid-based solvent system yields ultrahigh Li/Co selectivity during leaching from the LCO cathode. In contrast, high overall recovery efficiencies for both Li and Co are achieved when phosphoric acid serves as the HBD in a betaine:phosphoric acid-based solvent system.

Bookmark

Cite This Study

Jing et al. (Thu,) studied this question.

synapsesocial.com/papers/69bf8692f665edcd009e8e9e https://doi.org/https://doi.org/10.1021/acs.jpcc.6c00085

Bookmark