Preparation method for cobalt-manganese-nickel oxides

A nickel oxide, cobalt manganese nickel technology, applied in the field of electronic functional powder material preparation, can solve the problems of low qualification rate, high equipment requirements, inconsistent grain and phase, and achieve uniformity and fineness improvement and uniform composition distribution. , the effect of consistent grain structure

Inactive Publication Date: 2015-12-09
GUIZHOU ACADEMY OF TESTING & ANALYSIS
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  • Application Information

AI Technical Summary

Problems solved by technology

[0003] CoO, MnO, and NiO can be mixed and fired at high temperature to obtain electronic semiconductor (NTC) materials and cobalt-manganese-nickel oxide ternary materials for preparing lithium battery cathode materials. The method for preparing Co-Mn-Ni oxide powder mainly includes solid phase method, liquid phase method and gas phase method, the most common is the solid phase method, in which cobalt, manganese and nickel oxides are mainly prepared by mixing and calcination. This method puts CoO, MnO, NiO and other powders together according to the formula It is made by ball milling in a ball mill for tens of hours, and then granulated, pressed into tablets, sintered and other processes to make electronic components. The ceramic material prepared by the solid phase mixing method has the defects of poor uniformity and insufficient fineness of the ceramic material.
The impact of this on component manufacturing is reflected in the following three aspects, (a) uneven porcelain material leads to poor product consistency and low pass rate
(b) The electrical properties of the product are not good, due to the inhomogeneity of the ceramic material, the crystal grains and crystal phases are inconsistent during the sintering process
(c) Since the fineness of the ceramic material is not fine enough, the sintering temperature is high, which increases the production cost and has an adverse effect on the performance
The liquid-phase synthesis method includes a variety of synthesis methods such as precipitation method, sol-gel method, and hydrothermal method. In the case of uniform chemical solvents, uniform nanometer-sized powders can be obtained, and then more ideal thermistor resistivity and electrical properties can be obtained. Performance, but the operation is more complicated, the experiment requirements are relatively high, and it is difficult to achieve repeated and stable production
The gas phase method can improve the powder mixing degree and refine the particles, but the process is complicated, the equipment requirements are high, and it is not easy to operate

Method used

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Examples

Experimental program
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Effect test

Embodiment 1

[0031] The preparation method of embodiment 1 cobalt, manganese, nickel oxide

[0032] The preparation method of 2kg cobalt-manganese-nickel oxide specifically completes through the following steps:

[0033] 1) Weigh manganese sulfate monohydrate, cobalt sulfate heptahydrate, and nickel sulfate hexahydrate according to the molar ratio of Co:Mn:Ni of 16:67:17, that is, manganese sulfate monohydrate 3136g, cobalt sulfate heptahydrate 1246g, hexahydrate Nickel sulfate 1238g, dissolves with hot water respectively, puts into reaction tank, stirs;

[0034] 2) Gradually add NH in the reaction tank 4 HCO 3 Solution, the pH value is 7.5, the temperature is raised to 70°C, and the reaction is 30min;

[0035] 3) Continue to slowly add KOH solution until the pH value is 10.5, react for 30 minutes, discharge, filter, and wash with water until no SO 4 2- ionized, dried, roasted in a high-temperature furnace at 820°C for 2-3 hours, and pulverized by ball milling;

[0036] 4) Add 20 tim...

Embodiment 2

[0040] The cobalt-manganese-nickel oxide (ternary material) prepared in Example 1 was used as a raw material to prepare a polymer lithium ion battery.

[0041] Weigh a certain amount of Co-Mn-Ni oxide powder, weigh a certain amount of LiCO 3 . According to the weighing ratio Co-Mn-Ni powder: LiCO 3= 2:1 Mix well, bake at 850°C for 2 hours, cool and grind. Co-Mn-Ni-Li oxide mixture plus conductive agent and binder to make slurry, the slurry is coated on the tape to form the positive electrode, the negative electrode is layered graphite plus conductive agent and binder, coated on the copper foil base tape , the upper electrode lead, injected with polymer electrolyte, folded, aluminum-plastic soft package. The size is 120×80×4(mm), and the weight is 75g.

[0042] After testing the electrical performance: 3.8v, 13.0wh, 3500mAh.

Embodiment 3

[0044] The cobalt-manganese-nickel oxide powder obtained in Example 1 is made into an NTC thermistor element according to the resistance electronic ceramic preparation process.

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Abstract

The invention discloses a preparation method for cobalt-manganese-nickel oxides. The preparation method comprises steps of separately dissolving industrial products including manganese sulfate monohydrate, cobaltous sulfate heptahydrate and nickel sulfate hexahydrate by hot water, gradually adding a NH4HCO3 solution for performing a neutralization reaction and a precipitation reaction, then continuing to add a KOH solution to react, discharging, filtering, washing by water until SO42-ions disappear, drying, roasting by a high-temperature furnace at the temperature of 820 DEG C for 2-3 hours, ball milling and smashing, stirring and washing by hot water, then filtering, washing, drying and smashing to obtain the cobalt-manganese-nickel oxides. The preparation method is simple, easy to operate, and low in production cost; and the prepared cobalt-manganese-nickel oxides are excellent in product uniformity, stability and electric property, and low in production cost, and can be used for industrial production.

Description

technical field [0001] The invention belongs to the technical field of preparation of electronic functional powder materials, and in particular relates to a preparation method of cobalt, manganese and nickel oxides. Background technique [0002] Electronic semiconductor materials can be obtained by mixing CoO, MnO, and NiO through high-temperature firing. The resistance of this material decreases when the temperature rises, and the temperature coefficient of resistance is large, so it can be used as a negative characteristic thermistor (NTC). (NegativeTemperatureCoefficient, NTC) resistance refers to a material whose resistance value decreases exponentially with increasing temperature within the operating temperature range. NTC thermistors are used in electronic thermometers, temperature control electronic equipment, etc. Lithium-ion batteries are composed of three elements: positive electrode, negative electrode, and electrolyte. Cobalt-manganese-nickel oxide powder materi...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01M4/50H01M4/52H01M10/0525H01C17/00
CPCH01C17/00H01M4/50H01M4/52H01M10/0525Y02E60/10
Inventor 吴光进袁波舒海霞曾茵管洪素王雪帅瑞铖杨峰朱绍严
Owner GUIZHOU ACADEMY OF TESTING & ANALYSIS
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