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Preparation method for lithium-rich manganese based anode material hydroxide precursor

A technology of hydroxide and positive electrode materials, applied in battery electrodes, electrochemical generators, electrical components, etc., can solve problems such as low tap density, low material tap density, and poor material processing performance, and achieve uniform composition , the effect of controllable particle size

Active Publication Date: 2015-07-01
有研科技集团有限公司
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  • Abstract
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  • Claims
  • Application Information

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Problems solved by technology

However, there are many problems in the precursor technology used to prepare lithium-rich manganese-based solid solution cathode materials: firstly, if it uses alkaline hydroxide as precipitant, the Mn(OH) 2 The solubility product Ksp=1.9×10 -13 , significantly higher than that of Ni(OH) 2 and Co(OH) 2 (respectively 2.0×10 -15 and 1.6×10 -15 ), it is easy to cause the primary particles of the precursor to be small, the distribution uniformity of the transition metal element components is poor, and it is also easy to absorb moisture and be oxidized, and the small particle size of the primary particle is not conducive to surface modification, and it is difficult to obtain stable and consistent modified products.
However, in the prior art, ammonia water etc. are generally used as a single complexing agent, and the growth of precursor crystals with high manganese content is mainly one-dimensional or two-dimensional growth, and the bridging phenomenon between primary particles is obvious, resulting in low material tap density; and if using Carbonate is a precipitating agent. Although it has good spheroidizing properties, it is not easy to control the particle size distribution, and has an important impact on the electrical properties of the final lithium-rich manganese-based material; secondly, the tap density is low, and the amount of residual alkali on the surface may be high, which affects the cycle. Both lifespan and specific energy increase have detrimental effects
These unfavorable factors inhibit the development of its commercialization
[0004] Patent document CN102881886A discloses a method for preparing a lithium-rich solid solution precursor at low temperature using carbonate as a precipitating agent. The particle size of the lithium-rich solid solution positive electrode material obtained in the embodiment of the method is only 1-3 μm, and the small particle size leads to poor processing performance of the material. poor

Method used

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  • Preparation method for lithium-rich manganese based anode material hydroxide precursor
  • Preparation method for lithium-rich manganese based anode material hydroxide precursor
  • Preparation method for lithium-rich manganese based anode material hydroxide precursor

Examples

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Embodiment 1

[0026] NiSO 4 、CoSO 4 , MnSO 4 According to molar ratio Mn: Ni: Co=55: 25: 20 ratio prepares the mixed aqueous solution of nickel salt, cobalt salt, manganese salt, the mixed ion concentration of nickel, cobalt, manganese is 1mol / L, preparation contains 0.2% polyacrylamide 8mol / L sodium hydroxide solution, prepare a composite complexing agent solution containing EDTA, chitosan and ammonia water, and then pump the mixed aqueous solution of nickel salt, cobalt salt, manganese salt, alkali solution, and complex complexing agent solution at the same time In the reaction kettle, the water bath temperature is 70°C, the stirring speed is 1000rpm, and the average molar concentration of EDTA in the control reaction solution is 0.15mol / L; the average mass concentration of chitosan in the reaction solution is 18%; the ammonium ion in the reaction solution The average molar concentration is 3mol / L, and the pH value is controlled at 11.5, the average residence time is more than 15 hours,...

Embodiment 2

[0028] Ni(NO 3 ) 2 , Co(NO 3 ) 2 , Mn(NO 3 ) 2 Prepare a mixed aqueous solution of nickel salt, cobalt salt, and manganese salt at a molar ratio of Mn:Ni:Co=65:15:20. The mixed ion concentration of nickel, cobalt, and manganese is 2.5mol / L, and the preparation contains 0.05% polyethylene 3mol / L potassium hydroxide solution of pyridine, prepare complex complexing agent solution containing EDTA, chitosan concentration and ammonia water, then mix aqueous solution of nickel salt, cobalt salt, manganese salt, alkali solution, complex complexing agent solution at the same time Pumped into the reaction kettle in parallel, the temperature of the water bath is 70°C, the stirring speed is 800rpm, the average molar concentration of EDTA in the control reaction solution is 0.05mol / L; the average mass concentration of chitosan in the reaction solution is 0.04%; The average molar concentration of ammonium ions is 0.2 mol / L, and the pH value is controlled at 9, the average residence tim...

Embodiment 3

[0030] NiCl 2 、CoCl 2 , MnCl 2Prepare a mixed aqueous solution of nickel salt, cobalt salt, and manganese salt at a molar ratio of Mn:Ni:Co=70:20:10. The mixed ion concentration of nickel, cobalt, and manganese is 0.8mol / L, and the preparation contains 0.01% polyethylene 1mol / L lithium hydroxide solution of imine, prepare complex complexing agent solution containing EDTA, chitosan and ammonia water, then mix aqueous solution of nickel salt, cobalt salt, manganese salt, alkali solution, and complex complexing agent solution at the same time Pumped into the reaction kettle in parallel, the temperature of the water bath is 40°C, the stirring speed is 100rpm, the average molar concentration of EDTA in the control reaction solution is 0.0001mol / L; the average mass concentration of chitosan in the reaction solution is 0.01%; The average molar concentration of ammonium ions is 0.1mol / L, and the pH value is controlled at 9, the average residence time is more than 24 hours, and the c...

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Abstract

The invention discloses a preparation method for a lithium-rich manganese based anode material hydroxide precursor. The method includes the steps of: (1) preparing a mixed solution of a nickel salt, a cobalt salt and a manganese salt according to the mole ratio of Mn, Co and Ni in the hydroxide precursor's molecular formula MnxCoyNi1-x-y(OH)2, wherein x is greater than 0.5 and smaller than 1, y is greater than 0 and smaller than 0.5, and x+y is smaller than 1; (2) preparing an additive containing alkaline aqueous solution, and preparing a composite complexing agent solution containing EDTA, chitosan and ammonia water; (3) under inert gas protection, merging the mixed solution of the nickel salt, the cobalt salt and the manganese salt, the alkaline aqueous solution and the composite complexing agent solution and injecting the mixture into a continuous reaction kettle to carry out continuous reaction, controlling the average concentration of EDTA, chitosan and ammonia ions in the reaction solution, and controlling the reaction pH value at 9-13, the reaction temperature at 30-80DEG C and the stirring speed at 100-2000rpm; and (4) filtering, washing and drying the liquid naturally discharged from the reaction kettle. The lithium-rich manganese based anode material hydroxide precursor prepared by the method provided by the invention has the characteristics of uniform components, controllable particle size and compact growth.

Description

technical field [0001] The invention relates to a method for preparing a lithium-rich manganese-based cathode material hydroxide precursor, and belongs to the technical field of lithium battery material preparation. Background technique [0002] The contradiction between the increasing depletion of non-renewable energy such as oil and coal and the increasing energy demand of human beings, as well as the huge damage to the environment caused by the greenhouse gases and pollutants produced by the burning of fossil fuels, have led to global warming, raging diseases and frequent natural disasters , making people aware of the urgency of finding clean alternative energy sources. The next-generation lithium-ion power battery with electric vehicles and grid energy storage as the major application background can not only improve energy efficiency, reduce greenhouse gas and pollutant emissions, but also clean up those periodic wind energy, solar energy, tidal energy, etc. The electri...

Claims

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Application Information

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IPC IPC(8): H01M4/505H01M4/525H01M4/1391
CPCH01M4/1391H01M4/505H01M4/525H01M10/0525H01M2220/10H01M2220/20Y02E60/10
Inventor 庞国耀庄卫东卢世刚尹艳萍卢华权高哲峰
Owner 有研科技集团有限公司
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