Qingxin Zheng scite author profile

Glycine was applied as the leachant for the hydrothermal leaching of lithium-ion battery (LIB) cathode materials, LiCoO 2 and LiNiO 2 , at 90−180 °C for 5−90 min. LiCoO 2 was completely leached at 180 °C for 30 min. It was revealed that Co(III)−glycine complex formed first and was gradually reduced to Co(II)−glycine complex. Compared to LiCoO 2 , LiNiO 2 required a lower temperature and shorter time for complete leaching. Different from using inorganic acids or organic acids like citric acid, pH values of the glycine solution before or after hydrothermal leaching of LiCoO 2 or LiNiO 2 was in the range 5.8−9.0, closer to neutral. In the mechanism analysis, the consumption of glycine was attributed to the oxidation of glycine and the formation reaction of Co−glycine complex; during the hydrothermal leaching at 180 °C for 30 min, more than half of leached Co was calculated to be reduced from trivalent to divalent. The shrinking unreacted core model was adopted to study the kinetics. As a result, hydrothermal leaching of Li and Co with glycine was well fitted by the interface reaction control, and the activation energies of Li and Co leaching were 87.5 and 72.2 kJ/mol, respectively. With the successful running of continuous hydrothermal leaching of LiCoO 2 with glycine using a specifically customized flow system, LIB cathode materials were leached through the green and continuous process with a high efficiency close to 100%, and the acid corrosion was detected to be as light as to be almost negligible, for the first time.

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Qingxin Zheng

Polymorphism of BaTeMo₂O₉: A New Polar Polymorph and the Phase Transformation

Lipid extraction from microalgae covered with biomineralized cell walls using liquefied dimethyl ether

Hydrothermal leaching of ternary and binary lithium-ion battery cathode materials with citric acid and the kinetic study

Synthesis and characterization of monolithic Gd2O3 aerogels

Fabrication of YAG mono-dispersed particles with a novel combination method employing supercritical water process

Continuous hydrothermal leaching of LiCoO₂ cathode materials by using citric acid

Resolution-enhanced Kendrick mass defect plots for the data processing of mass spectra from wood and coal hydrothermal extracts

Glycine-Assisted Hydrothermal Leaching of LiCoO₂/LiNiO₂ Cathode Materials with High Efficiency and Negligible Acid Corrosion Employing Batch and Continuous Flow System

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Qingxin Zheng

Polymorphism of BaTeMo2O9: A New Polar Polymorph and the Phase Transformation

Lipid extraction from microalgae covered with biomineralized cell walls using liquefied dimethyl ether

Hydrothermal leaching of ternary and binary lithium-ion battery cathode materials with citric acid and the kinetic study

Synthesis and characterization of monolithic Gd2O3 aerogels

Fabrication of YAG mono-dispersed particles with a novel combination method employing supercritical water process

Continuous hydrothermal leaching of LiCoO2 cathode materials by using citric acid

Resolution-enhanced Kendrick mass defect plots for the data processing of mass spectra from wood and coal hydrothermal extracts

Glycine-Assisted Hydrothermal Leaching of LiCoO2/LiNiO2 Cathode Materials with High Efficiency and Negligible Acid Corrosion Employing Batch and Continuous Flow System

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Product

Resources

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Polymorphism of BaTeMo₂O₉: A New Polar Polymorph and the Phase Transformation

Continuous hydrothermal leaching of LiCoO₂ cathode materials by using citric acid

Glycine-Assisted Hydrothermal Leaching of LiCoO₂/LiNiO₂ Cathode Materials with High Efficiency and Negligible Acid Corrosion Employing Batch and Continuous Flow System