Carbonate precursors for lithium nickel manganese cobalt oxide cathode material and the method of making same

Assignees

• UMICORE · BE
• UMICORE KOREA LTD. · KR

Inventors

• Jin Hu · Ekeren, BE
• HeonPyo Hong · Cheonan-si, KR
• Jens Paulsen · Cheonan-si, KR
• JinDoo Oh · Daeheung-dong, KR
• Daniël Nelis · Olen, BE
• Eric Robert · Saint-Cyr-sur-Loire, FR

Key dates

Classification

• Technology area (CPC Y)Emerging Cross-Sectional Technologies
• CPC primaryY02T10/70
• WIPO fieldElectrical machinery, apparatus, energy
• WIPO sectorElectrical engineering

Abstract

A method for producing a M-carbonate precursor of a Li-M oxide cathode material in a continuous reactor, wherein M=NixMnyCozAn, A being a dopant, with x>0, y>0, 0≤z≤0.35, 0≤n≤0.02 and x+y+z+n=1, the method comprising the steps of: —providing a feed solution comprising Ni-, Mn-, Co- and A-ions, and having a molar metal content M″ feed, —providing an ionic solution comprising either one or both of a carbonate and a bicarbonate solution, the ionic solution further comprising either one or both of Na- and K-ions, —providing a slurry comprising seeds comprising M′-ions and having a molar metal content M′ seeds, wherein M′=Nix′Mny′Coz′A′n′, A′ being a dopant, with 0≤x′≤1, 0≤y′≤1, 0≤z′≤1, 0≤n′≤1 and x′+y′+z′+n′=1, and wherein the molar ratio M′ seeds/M″ feed is between 0.001 and 0.1, —mixing the feed solution, the ionic solution and the slurry in the reactor, thereby obtaining a reactive liquid mixture, —precipitating a carbonate onto the seeds in the reactive liquid mixture, thereby obtaining a reacted liquid mixture and the M-carbonate precursor, and —separating the M-carbonate precursor from the reacted liquid mixture.