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Preparation method of praseodymium cobalt phosphorous-doped lithium manganese silicate composite positive material

A composite positive electrode material, lithium manganese silicate technology, applied in the direction of battery electrodes, structural parts, electrical components, etc., can solve the problems of insufficient theoretical capacity, low rate characteristics, low electronic conductivity, etc., to improve electronic conductivity rate and material activity, improve electrical conductivity, and the effects of fast charge and discharge rates

Inactive Publication Date: 2014-06-18
国网山东省电力公司聊城供电公司 +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In a lithium ion secondary battery using such a polyanionic compound with low electron conductivity as a positive electrode active material, a sufficient capacity cannot be obtained with respect to the theoretical capacity. Compared with the case, there is a problem that the rate characteristic becomes lower
Even in the case of compounding polyanionic compounds and carbon, since the particle size of carbon is larger than that of particles composed of polyanionic compounds, the particles composed of polyanionic compounds cannot be sufficiently covered by carbon, and cannot Sufficiently secure the contact area between particles made of polyanionic compounds and carbon
Therefore, there is a problem that the electron conductivity of the polyanion compound cannot be sufficiently improved, and then sufficient capacity and rate characteristics cannot be obtained in a lithium ion secondary battery using the polyanion compound as a positive electrode active material.

Method used

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0018] The chemical formula of the prepared praseodymium cobalt phosphorus doped manganese lithium silicate is LiMn 0.79 co 0.2 PR 0.01 Si 0.78 P 0.22 o 4 . Lithium carbonate, manganese oxalate, cobalt acetate, praseodymium nitrate, ethyl silicate and ammonium dihydrogen phosphate were weighed according to the molar weights of Li, Mn, Co, Pr, Si and P in the above chemical formula.

[0019] Dissolve the above-mentioned ethyl silicate and ammonium dihydrogen phosphate in deionized water to form an aqueous solution with a phosphate ion concentration of 0.22mol / L, and add the aqueous solution to the autoclave; then slowly add manganese oxalate and acetic acid to the autoclave Cobalt and praseodymium nitrate, after the addition is completed, the autoclave is sealed and refluxed at a temperature of 90°C and a speed of 150rpm for 15h; after reflux, after the contents of the autoclave have dropped to room temperature, the autoclave is opened, and the above-mentioned lithium carb...

Embodiment 2

[0023] The chemical formula of the prepared praseodymium cobalt phosphorus doped manganese lithium silicate is LiMn 0.73 co 0.25 PR 0.02 Si 0.66 P 0.34 o 4 . Lithium carbonate, manganese oxalate, cobalt acetate, praseodymium nitrate, ethyl silicate and ammonium dihydrogen phosphate were weighed according to the molar weights of Li, Mn, Co, Pr, Si and P in the above chemical formula.

[0024] Dissolve the above-mentioned ethyl silicate and ammonium dihydrogen phosphate in deionized water to form an aqueous solution with a phosphate ion concentration of 0.34mol / L, and add the aqueous solution to the autoclave; then slowly add manganese oxalate and acetic acid to the autoclave After the addition of cobalt and praseodymium nitrate, the autoclave was sealed and refluxed at a temperature of 96°C and a speed of 250rpm for 10h; after reflux, after the content of the autoclave dropped to room temperature, the autoclave was opened, and the above-mentioned lithium carbonate was adde...

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Abstract

The invention relates to a preparation method of a praseodymium cobalt phosphorous-doped lithium manganese silicate composite positive material. The chemical formula of the praseodymium cobalt phosphorous-doped lithium manganese silicate is as follows: LiMn<1-x-y>CoxPrySi<1-z>PzO4, wherein x is 0.2 to 0.25, y is 0.01 to 0.02, and z is 0.22 to 0.34. The method comprises the following steps of (1) preparing a praseodymium cobalt phosphorous-doped lithium manganese silicate precursor; (2) thermally treating the praseodymium cobalt phosphorous-doped lithium manganese silicate precursor and crushing the praseodymium cobalt phosphorous-doped lithium manganese silicate precursor to obtain the precursor powder, dispersing carbon black and active carbon into acetone to form conductive carbon dispersion liquid, mixing the precursor powder and the conductive carbon dispersion liquid, and ball milling the mixture; and (3) drying, placing the mixture with 1:1 (mol)CO / CO2 into a purging intermittent converter, sintering the mixture, and grinding and filtering the mixture to obtain a product. According to the prepared praseodymium cobalt phosphorous-doped lithium manganese silicate composite positive material, the rare earth element Pr and the metal element Co are doped in the lithium manganese silicate so as to modify Mn, and partial Si elements are substituted by the P element, so that the electron conductivity and substance activity can be improved.

Description

Technical field [0001] The invention relates to a preparation method of manganese lithium silicate composite positive electrode material doped with praseodymium cobalt phosphorus. Background technique [0002] With the rapid development of the battery industry, in order to solve many problems such as battery life, energy density, self-discharge or quality, various types of batteries have emerged. At present, due to the advantages of high energy density, long service life, light weight, and small self-discharge, lithium batteries have become the preferred power source for portable devices such as communication equipment and notebook computers, and have also begun to be applied to electric vehicles, national defense, etc. in large equipment. [0003] Polyanionic positive electrode materials have attracted widespread attention as a new generation of lithium ion battery positive electrode materials, especially the silicate positive electrode materials that are considered to be ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01M4/58H01M4/1397
CPCY02E60/122H01M4/1397H01M4/366H01M4/5825H01M4/625H01M10/0525Y02E60/10
Inventor 王杨
Owner 国网山东省电力公司聊城供电公司
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