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Nickel, cobalt, lithium manganate core-shell material gel and preparation method therefor

A lithium manganate, core-shell technology, applied in nickel, lithium manganate core-shell material gel and its preparation, cobalt field, can solve problems such as poor environmental tolerance, achieve improved cycle, improved stability, good environmental resistance. receptive effect

Pending Publication Date: 2018-01-09
SHANDONG GOLDENCELL ELECTRONICS TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0004] The object of the present invention is to aim at the above-mentioned shortcomings existing in the prior art, to provide a kind of nickel, cobalt, lithium manganate core-shell material gel preparation method, the core-shell ternary material after the doping prepared by the method of the present invention, and It can overcome the problems of unstable structure and poor environmental tolerance of high-nickel materials, thereby improving the cycle, rate and safety performance of materials

Method used

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  • Nickel, cobalt, lithium manganate core-shell material gel and preparation method therefor
  • Nickel, cobalt, lithium manganate core-shell material gel and preparation method therefor
  • Nickel, cobalt, lithium manganate core-shell material gel and preparation method therefor

Examples

Experimental program
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Effect test

Embodiment example 1

[0035] (1) Preparation of metal salt solution I: According to the molar ratio of metal ions Ni:Co:Mn:Mg is 8:1:0.9:0.1, take nickel acetate tetrahydrate, cobalt acetate tetrahydrate, manganese acetate tetrahydrate and magnesium nitrate solution Prepare 0.5mol / L metal salt solution in 500ml deionized water.

[0036] (2) Preparation of sol I: add 100ml of lithium hydroxide solution with a mass fraction of 5.92% and 50ml of citric acid solution with a mass fraction of 34.44% into the metal salt solution in a sequential manner, and stir at room temperature for 5 hours to form a sol .

[0037] (3) Preparation of spherical spheroidized precursor Ⅰ: Sol Ⅰ was heated in a water bath at 80°C for 4 hours to obtain gelled precursor Ⅰ, and the gelled precursor was crushed by sand milling, and spheroidized precursor Ⅰ was prepared by spheroidization technology.

[0038] (4) Precursor II preparation: according to the molar ratio of metal ions Ni:Co:Mn:Mg is 6:3:0.9:0.1, nickel acetate tetr...

Embodiment example 2

[0043] (1) Preparation of metal salt solution I: according to the molar ratio of metal ions Ni:Co:Mn:Mg is 8:1:0.95:0.05, weigh nickel nitrate, cobalt nitrate, manganese nitrate, magnesium nitrate and dissolve in 500ml deionized water Prepare 0.5mol / L metal salt solution.

[0044] (2) Preparation of sol I: add 100ml of lithium hydroxide solution with a mass fraction of 5.92% and 50ml of citric acid solution with a mass fraction of 34.44% into the metal salt solution in a sequential manner, and stir at room temperature for 5 hours to form a sol .

[0045] (3) Preparation of spherical spheroidized precursor Ⅰ: Sol Ⅰ was heated in a water bath at 80°C for 4 hours to obtain gelled precursor Ⅰ, and the gelled precursor was crushed by sand milling, and spheroidized precursor Ⅰ was prepared by spheroidization technology.

[0046] (4) Precursor II preparation: According to the molar ratio of metal ions Ni:Co:Mn:Mg is 6:3:0.95:0.05, nickel nitrate, cobalt nitrate, manganese nitrate, m...

Embodiment example 3

[0052] (1) Preparation of metal salt solution I: according to the molar ratio of metal ions Ni:Co:Mn:Mg is 8:1:0.95:0.05, take nickel acetate tetrahydrate, cobalt acetate tetrahydrate, manganese acetate tetrahydrate and magnesium nitrate solution Prepare 0.5mol / L metal salt solution in 500ml deionized water.

[0053] (2) Preparation of sol I: add 100ml of lithium hydroxide solution with a mass fraction of 5.92% and 50ml of citric acid solution with a mass fraction of 34.44% into the metal salt solution in a sequential manner, and stir at room temperature for 5 hours to form a sol .

[0054] (3) Preparation of spherical spheroidized precursor Ⅰ: Sol Ⅰ was heated in a water bath at 80°C for 4 hours to obtain gelled precursor Ⅰ, and the gelled precursor was crushed by sand milling, and spheroidized precursor Ⅰ was prepared by spheroidization technology.

[0055] (4) Precursor II preparation: according to the molar ratio of metal ions Ni:Co:Mn:Mg is 6:3:0.95:0.05, nickel acetate ...

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Abstract

The invention provides nickel, cobalt, lithium manganate core-shell material gel and a preparation method therefor. A nickel, cobalt, lithium manganate positive electrode material adopts a spherical-like core-shell structure doped with a little amount of metal elements, wherein the content of nickel in an inner layer is high, and the content of nickel in the outer layer is relatively low; a lithium source solution and a chelating agent solution are dropwise added to a metal salt solution I in sequence to form gel I; the gel is subjected to water bath heating to obtain a gelation precursor I; next, the gelation precursor is subjected to smashing and spheroidizing technologies to prepare a spheroidized precursor I; the lithium source solution and the chelating agent solution are dropwise added to a metal salt solution II in sequence to be subjected to gel treatment, sol treatment and smashing to obtain a precursor II; next, by virtue of the spheroidizing technology and by taking the spheroidized precursor I as the core, the precursor II is subjected to surface coating to obtain the final spherical core-shell precursor; and the spherical core-shell precursor is subjected to high-temperature sintering in an oxygen atmosphere to obtain the doped core-shell material. By virtue of the gel method, the main elements and the doped elements can be dispersed uniformly; and meanwhile, by virtue of coating of the outer layer low-nickel element, the tolerance of the material in the air can be improved, thereby greatly improving the rate, cycling and safety performance of the ternary material.

Description

technical field [0001] The patent of the present invention relates to the technical field of lithium batteries, in particular to a nickel, cobalt, lithium manganate core-shell material gel and a preparation method thereof. technical background [0002] At present, researchers generally use high-temperature solid-phase method and co-precipitation method to prepare ternary materials. The high-temperature solid-phase method is a traditional method often used in the preparation of positive electrode materials. A certain proportion of raw materials are mixed and then mechanically ground and high-temperature roasted to prepare the target product. Although the solid-phase method is simple to operate and easy to produce industrially, it requires a high temperature and a long time for calcination, which is a waste of energy, and the prepared material has poor mixing uniformity, and it is difficult to control the particle size and shape. The co-precipitation method is mainly to co-pr...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01M4/505H01M4/525
CPCY02E60/10
Inventor 闫俊杰孟博杜显振
Owner SHANDONG GOLDENCELL ELECTRONICS TECH
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