Lithium-rich manganese-based material coated with lithium aluminum titanium phosphate and preparation method of lithium-rich manganese-based material

A lithium titanium aluminum phosphate, lithium-rich manganese-based technology, applied in structural parts, electrical components, battery electrodes, etc., can solve the problems of voltage platform discharge capacity attenuation, low Coulomb efficiency, and microcracks on the surface of positive electrode materials, etc., and achieve excellent magnification performance, excellent coulombic efficiency, and the effect of excellent cycle performance

Pending Publication Date: 2018-03-06
湖南桑瑞新材料有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] However, the discharge capacity of common commercial cathode materials is generally lower than 200mAh/g, such as lithium cobaltate, lithium iron phosphate, various nickel-cobalt-manganese ternary materials, etc., which are difficult to meet the development requirements of electric vehicles or hybrid electric vehicles; Lithium-rich layered cathode materials have a high specific capacity, with a discharge specific capacity of 240mAh/g at a discharge platform of 2.0V-4.8V; therefore, lithium-rich materials are considered to be one of the most promising cathode materials; however, Lithium-rich layered materials still have three major defects to be overcome in the process of commercialization: 1. The Coulombic efficiency of the first charge and discharge is relatively low; this is mainly because when the discharge voltage exceeds 4.5V, Li 2 MnO 3 Decomposition occurs to generate Li 2 O, resulting in Li 2 O loss and electrode oxidation increase the irreversible capacity of the first charge and discharge; and, due to the low Coulomb efficiency, a large amount of lithium metal is deposited on the carbon negative electrode, which will also cause serious safety problems; 2. Poor cycle stability, voltage p

Method used

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  • Lithium-rich manganese-based material coated with lithium aluminum titanium phosphate and preparation method of lithium-rich manganese-based material
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Experimental program
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Effect test

Embodiment 1

[0030]S1: Add 100mL of deionized water into a 250mL high-necked beaker, then add 25g of manganese sulfate, 5.4g of nickel sulfate and 5.8g of cobalt sulfate at a stirring speed of 500 rpm, and fully disperse them; then Under the stirring condition of 1500 rpm / min, add dropwise an appropriate amount of ammonia water and sodium hydroxide mixed solution in the above solution, wherein the concentration of sodium hydroxide is 5mol / dm 3 And the concentration of ammonia water is 1mol / dm 3 , so that the pH value is at 11; then the above suspension is filtered by suction, and baked in a vacuum oven at a temperature of 100 ° C for 6 hours to obtain a hydroxide precursor;

[0031] S2: Fully mix the precursor obtained above with the lithium source, and add B at the same time during the mixing process 2 o 3 as a flux; then put the above mixture into the muffle furnace, calcined at 800°C for 10h, and the heating rate was 4°C / min, after the calcined was cooled, rinse it with deionized wate...

Embodiment 2

[0035] S1: Add 100mL of deionized water into a 250mL high-necked beaker, then add 25g of manganese sulfate, 5.4g of nickel sulfate and 5.8g of cobalt sulfate at a stirring speed of 500 rpm, and fully disperse them; then Under the stirring condition of 1500 rpm / min, add an appropriate amount of ammonia water / sodium hydroxide mixed solution dropwise to the above solution, wherein the concentration of sodium hydroxide is 5mol / dm 3 And the concentration of ammonia water is 1mol / dm 3 , so that the pH value is at 11; then the above suspension is filtered by suction, and baked in a vacuum oven at a temperature of 100 ° C for 6 hours to obtain a hydroxide precursor;

[0036] S2: Fully mix the precursor obtained above with LiOH at a molar ratio of 1:1.42, then send the mixture of precursor and LiOH into a muffle furnace, and calcinate at 800°C for 10h, with a heating rate of 4 ℃ / min, after the calcined product is cooled, wash it with deionized water four times, then put it into an ove...

Embodiment 3

[0041] S1: Add 100mL of deionized water into a 250mL high-necked beaker, then add 25g of manganese sulfate, 5.4g of nickel sulfate and 5.8g of cobalt sulfate at a stirring speed of 500 rpm, and fully disperse them; then Under the stirring condition of 1500 rpm / min, add an appropriate amount of ammonia water / sodium hydroxide mixed solution dropwise to the above solution, wherein the concentration of sodium hydroxide is 5mol / dm 3 And the concentration of ammonia water is 1mol / dm 3 , so that the pH value is at 11; then the above suspension is filtered by suction, and baked in a vacuum oven at a temperature of 100 ° C for 6 hours to obtain a hydroxide precursor;

[0042] S2: Fully mix the precursor obtained above with the lithium source, and add KCl as a flux during the mixing process; then send the above mixture into a muffle furnace, and calcinate at 800°C for 10h, and the heating rate is 4°C / min, after the calcined product is cooled, rinse it with deionized water four times, ...

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Abstract

The invention discloses a lithium-rich manganese-based material coated with lithium aluminum titanium phosphate and a preparation method of the lithium-rich manganese-based material. The preparation method comprises the following steps: under the stirring condition, dropwise adding a mixed solution of ammonia water and sodium hydroxide into a mixed solution containing manganese salt, cobalt salt and nickel salt to obtain a hydroxyl precursor; then reacting the hydroxyl precursor with a proper amount of a lithium source to obtain a manganese-based lamellar lithium-rich oxide; adding one or moreof B2O3, BaCl2, PbCl2, CaCl2, KF, LiCl, Na2B4O7, Li2B4O7, LiBO2, Na2BO3, NaCl and KCl as fluxing agents in the sintering process; and finally, crushing the prepared manganese-based lamellar lithium-rich oxide. The lithium-rich manganese-based material coated with the titanium-aluminum phosphate, prepared by the prepared method disclosed by the invention, has the advantages of high specific capacity and excellent cyclic performance, in particular to the magnification performance and the charge-discharge coulomb efficiency of the lithium-rich manganese-based material; and in addition, the morphology of materials can be controlled by adjusting the sintering process and the use amount of the fluxing agents.

Description

technical field [0001] The invention relates to the technical field of lithium ion batteries, in particular to a lithium-rich manganese-based material coated with lithium titanium aluminum phosphate and a preparation method thereof. Background technique [0002] With the increasing energy crisis and environmental pollution, new words such as new energy, green, recyclable, and energy storage have increasingly become hot spots in social development; although lead-acid batteries and nickel-metal hydride batteries can alleviate this to a certain extent However, due to its unfriendly environment, low voltage platform, and energy density, it is always difficult to play a constructive role in the issue of green development; solar energy, wind energy, tidal energy and other energy sources are important to human beings. A rich and truly green energy source, but due to its indirect unsustainability and other issues, it is difficult to solve the energy problems faced by mankind at this...

Claims

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Application Information

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IPC IPC(8): H01M4/36H01M4/505H01M4/525H01M4/58H01M10/0525
CPCH01M4/366H01M4/505H01M4/525H01M4/5825H01M10/0525Y02E60/10
Inventor 常敬杭商士波唐泽勋吴海燕梅晶
Owner 湖南桑瑞新材料有限公司
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