Lithium ion battery positive pole material cobalt nickel oxide manganses lithium and method for making same

A nickel-cobalt-manganese-lithium oxide and lithium-ion battery technology, which is applied in the field of lithium-ion battery cathode material nickel-cobalt-manganese-lithium oxide and its preparation, can solve the problems that cannot meet the requirements of high-capacity lithium-ion batteries and restrict the energy density of lithium-ion batteries. Problems such as power density and high current charge and discharge performance are poor, and the effect of good electrochemical performance, low cost and high specific capacity is achieved

Active Publication Date: 2008-06-18
CHINA ELECTRONIC TECH GRP CORP NO 18 RES INST +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] At present, commercial lithium-ion battery cathode materials can be roughly divided into three categories according to their crystal structures: (1) α-NaFeO 2 type layered structure, whose representative component is LiCOO 2 , LiNiO 2 , LiMnO 2 and their respective derivatives, however, commercially available LiCOO 2 Due to the high cost of cobalt, and only about 50% of the theoretical capacity (274mAh / g), and the safety problems of rapid capacity decline and oxygen evolution when the charging voltage is higher than 4.3V; LiNiO 2 Its stoichiometric components are difficult to synthesize, and Li on the Li plane + and Ni 2+ The mixed arrangement results in extremely poor electrochemical performance
Layered LiMnO 2 It itself is a metastable structure, which cannot meet the actual use
(2) Spinel structure: its representative component is LiMnO 4 and derivatives, LiMnO 4 Although the price is low, the actual capacity is only 120mAh / g, which cannot meet the requirements of high-capacity lithium-ion batteries; (3) Olivine structure, the representative component of which is LiFePO 4 and its derivatives; although LiFePO 4 It has very excellent thermal stability, the theoretical capacity is 170mAh / g but the actual capacity is below 140mAh / g, and the working voltage is low (about 3.4VO 3 Li + / Li) Poor electronic conductivity, low diffusion of lithium in the solid phase, and poor high-current charge and discharge performance, thus restricting the energy density and power density of lithium-ion batteries

Method used

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Comparison scheme
Effect test

Embodiment 1

[0033] Nickel-cobalt-manganese-lithium oxide, a cathode material for high-energy lithium-ion batteries, has a lithium-rich layered structure with a chemical composition of Li 1.10 Ni 1 / 3 co 1 / 3 mn 1 / 3 o 2 . The reversible capacity of the material between 2.75-4.3>160mAh / g, the reversible capacity between 2.75-4.8V>220mAh / g, and has excellent cycle characteristics, good rate characteristics, thermal stability and low temperature performance and high storage capacity performance, good safety features, etc.

Embodiment 2

[0035] Li in Example 1 1.10 Ni 1 / 3 co 1 / 3 mn 1 / 3 o 2 The preparation method of the positive electrode material: measure and weigh nickel sulfate, cobalt sulfate, manganese sulfate (Ni:Co:Mn=1:1:1), dissolve with deionized water, prepare a mixed solution of 3.6mol / L, stir evenly and simultaneously Add 2% dispersant polyethylene glycol and 4% antioxidant sodium sulfite or protect with other inert gas such as nitrogen, stir well and set aside (recorded as solution I); prepare 12mol / l sodium hydroxide solution and add a little ammonia water to control ammonia alkali Ratio (molar ratio) is 0.3 (recorded as solution II); The above two kinds of solutions are added dropwise in the 170L reaction kettle with adjustable speed in the mode of parallel flow, and the flow velocity of sulfate is set as 400ml / min; The PH value is controlled in 3 stages, which are 8-10.5, 10.5-11.5, 11.5-12.8 respectively; the reaction temperature is controlled at 65°C; the stirring speed is set at 300r / min...

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Abstract

The invention relates to a nickel cobalt manganese lithium oxide material used for an anode of a li-ion battery and a preparation method. The invention belongs to the li-ion battery technical field. The nickel cobalt manganese lithium oxide material used for the anode of the li-ion battery is a li-rich laminated structure with the chemical component of Li1+zM1-x-yNixCoyO2; wherein, z is less than or equal to 0.2 and more than or equal to 0.05, x is less than or equal to 0.8 and more than 0.1, and y is less than or equal to 0.5 and more than 0.1. The preparation method of the invention is that dissoluble salt of the nickel, cobalt and manganese is taken as the raw material; ammonia or ammonium salt is taken as complexing agent; sodium hydroxide is taken as precipitator; water-dissoluble dispersant and water-dissoluble antioxidant or inert gas are added for control and protection; in a cocurrent flow type the solution is added to a reaction vessel for reaction; after alkalescence disposal, aging procedure, solid-liquid separation and washing and drying, the nickel cobalt manganese oxide is uniformly mixed with the lithium raw material; the nickel cobalt manganese lithium oxide powder is obtained by sintering the mixed powder which is divided into three temperature areas. The invention has the advantages of high specific capacity, good circulation performance, ideal crystal texture, short production period, low power loss, and being suitable for industrial production, etc.

Description

technical field [0001] The invention belongs to the technical field of lithium-ion batteries, and in particular relates to a lithium-ion battery anode material nickel-cobalt-manganese-lithium oxide and a preparation method thereof. Background technique [0002] At present, commercial lithium-ion battery cathode materials can be roughly divided into three categories according to their crystal structures: (1) α-NaFeO 2 type layered structure, whose representative component is LiCOO 2 , LiNiO 2 , LiMnO 2 and their respective derivatives, however, commercially available LiCOO 2 Due to the high cost of cobalt, and only about 50% of the theoretical capacity (274mAh / g), and the safety problems of rapid capacity decline and oxygen evolution when the charging voltage is higher than 4.3V; LiNiO 2 Its stoichiometric components are difficult to synthesize, and Li on the Li plane + and Ni 2+ The mixed row results in its poor electrochemical performance. Layered LiMnO 2 It itself ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01M4/58H01M4/48H01M4/04C01D15/00C01G1/02C01G53/00C01G51/00C01G45/00B22F9/00
CPCY02E60/10
Inventor 樊勇利
Owner CHINA ELECTRONIC TECH GRP CORP NO 18 RES INST
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