Advances and challenges in anode graphite recycling from spent lithium-ion batteries
Author:
Publisher
Elsevier BV
Subject
Health, Toxicology and Mutagenesis,Pollution,Waste Management and Disposal,Environmental Chemistry,Environmental Engineering
Reference151 articles.
1. From electrodes to electrodes: building high-performance Li-ion capacitors and batteries from spent lithium-ion battery carbonaceous materials;Aravindan;ChemElectroChem,2019
2. A comprehensive review of the advancement in recycling the anode and electrolyte from spent lithium ion batteries;Arshad;ACS Sustain. Chem. Eng.,2020
3. Untangling cooperative effects of pyridinic and graphitic nitrogen sites at metal‐free N‐doped carbon electrocatalysts for the oxygen reduction reaction;Behan;Small,2019
4. Combined mechanical process recycling technology for recovering copper and aluminium components of spent lithium-iron phosphate batteries;Bi;Waste Manag. Res.,2019
5. A new model of trajectory in eddy current separation for recovering spent lithium iron phosphate batteries;Bi;Waste Manag.,2019
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2. Unexpected self-driven enhanced leaching mechanism of cathodes and anodes from end-of-life lithium-ion battery;Separation and Purification Technology;2025-01
3. From graphite of used lithium-ion batteries to holey graphite coated by carbon with enhanced lithium storage capability;Journal of Colloid and Interface Science;2024-12
4. Towards circular economy of wasted printed circuit boards of mobile phones fuelled by machine learning and robust mathematical optimization framework;Resources, Conservation & Recycling Advances;2024-11
5. A comprehensive approach for the recycling of anode materials from spent lithium-ion batteries: Separation, lithium recovery, and graphite reutilization as environmental catalyst;Waste Management;2024-11
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