Ruijun Qiu scite author profile

Recovering valuable materials from spent lithium-ion batteries is an important task because of the asymmetry in resource distribution, supply, and demand around the world. A lithium-ion battery is a combination system of various elements and their oxides. Current recovering technologies focus on the separation of valuable metal elements. They can inescapably bring secondary contamination and cost to the environment due to the addition of leachants and precipitants. To recover valuable materials, in situ recombination of elements in spent lithium-ion batteries can be a more economical and environment-friendly solution. Herein, we developed a technology based on in situ aluminothermic reduction and interstitial solid solution transformation to recover high-value γ-LiAlO 2 and LiAl 5 O 8 under vacuum and high-temperature (1723 K) conditions. It was found that the process of Li 2 O filling into the lattice of O−Al−O structure is an energy-reducing process, while LiAl 5 O 8 was an existing high-energy transition-state matter. Since there was no wastewater generated, the process brought a new environment-friendly method for recovering valuable metals from spent lithium-ion batteries. This study also provides new comprehension regarding the design for high-value products' recovery from multi-element mixed wastes on an atomic scale.

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A novel technology of recovering magnetic micro particles from spent lithium-ion batteries by ultrasonic dispersion and waterflow-magnetic separation

Huang

Lin

Qiu

et al. 2021

Resources, Conservation and Recycling

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Eddy current separation can be used in separation of non-ferrous particles from crushed waste printed circuit boards

Huang

Qiu

et al. 2021

Journal of Cleaner Production

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Ruijun Qiu

A cleaner and energy-saving technology of vacuum step-by-step reduction for recovering cobalt and nickel from spent lithium-ion batteries

Environmental-friendly recovery of non-metallic resources from waste printed circuit boards: A review

In Situ Recombination of Elements in Spent Lithium-Ion Batteries to Recover High-Value γ-LiAlO2 and LiAl5O8

A novel technology of recovering magnetic micro particles from spent lithium-ion batteries by ultrasonic dispersion and waterflow-magnetic separation

Eddy current separation can be used in separation of non-ferrous particles from crushed waste printed circuit boards

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In Situ Recombination of Elements in Spent Lithium-Ion Batteries to Recover High-Value γ-LiAlO₂ and LiAl₅O₈