Method for preparing hollow high voltage nickel manganese acid lithium anode material

A technology of lithium nickel manganese oxide and cathode material, which is applied in the field of preparation of high voltage lithium nickel manganate cathode material with hollow morphology, can solve the problems of structural stress and volume change, complex preparation process, non-uniform material, etc. Effects of specific surface area, improved cycle performance, and increased contact area

Active Publication Date: 2013-12-25
南京时拓能源科技有限公司
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Liquid phase methods include co-precipitation method, sol-gel method and molten salt method, etc., and the preparation process is complex
The preparation process of solid phase method is simple, and it is the best choice for preparing LiNi 0.5 mn 1.5 o 4 The commonly used method is to mix a certain proportion of lithium source, nickel source and manganese source by ball milling, and ...

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  • Method for preparing hollow high voltage nickel manganese acid lithium anode material
  • Method for preparing hollow high voltage nickel manganese acid lithium anode material
  • Method for preparing hollow high voltage nickel manganese acid lithium anode material

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specific Embodiment approach 1

[0026] Specific embodiment one: this embodiment prepares lithium nickel manganese oxide material according to the following steps:

[0027] Prepare 1L of 0.04 mol / L manganese sulfate solution, add 100ml of absolute ethanol to the solution, and stir evenly; then slowly add 1L of 0.4mol / L ammonium bicarbonate solution to the solution while stirring, filter and wash to obtain precipitated carbonic acid Manganese; put manganese carbonate in a muffle furnace and calcinate at 350°C for 4 hours to obtain a mixture; put the mixture in 0.1mol / L hydrochloric acid and stir for 4 hours, filter and wash to obtain manganese dioxide; molar ratio Li:Ni :Mn=1.05:0.5:1.5 Weigh lithium hydroxide, nickel nitrate and manganese dioxide obtained in the previous step, and mix them by ball milling for 2 h to obtain the precursor; put the precursor in the air atmosphere of the muffle furnace, and pre- Calcined for 6 h, and then heated to 800 ° C for 14 h to obtain lithium nickel manganese oxide materia...

specific Embodiment approach 2

[0029] Specific embodiment two: this embodiment prepares lithium nickel manganese oxide material according to the following steps:

[0030] Prepare 1L of 0.16 mol / L manganese sulfate solution, add 200ml of absolute ethanol to the solution, and stir evenly; then slowly add 1L of 0.8mol / L ammonium bicarbonate solution to the solution while stirring, filter and wash to obtain precipitated carbonic acid Manganese; put manganese carbonate in a muffle furnace and calcinate at 300°C for 3 hours to obtain a mixture; put the mixture in 0.2mol / L hydrochloric acid and stir for 2 hours, filter and wash to obtain manganese dioxide; molar ratio LiOH:C 2 h 3 o 2 Li: C 4 h 6 NiO 4 :MnO 2 =0.5:0.5:0.5:1.5 Weigh lithium hydroxide, lithium acetate, nickel acetate and the manganese dioxide obtained in the previous step, and mix them by ball milling for 3 h to obtain a precursor; ℃ for 3 h, and then heated to 800 ℃ for 14 h to obtain lithium nickel manganese oxide material.

[0031] The lit...

specific Embodiment approach 3

[0032] Specific embodiment three: this embodiment prepares lithium nickel manganese oxide material according to the following steps:

[0033]Prepare 1L of 0.05 mol / L manganese sulfate solution, add 1L of 4mol / L ammonium sulfate to the solution, and stir evenly; then slowly add 1L of 0.45mol / L ammonium bicarbonate solution to the solution while stirring, filter and wash to obtain Precipitate manganese carbonate; put manganese carbonate in a muffle furnace and calcinate at 300°C for 5 hours to obtain a mixture; put the mixture in 0.2mol / L sulfuric acid and stir for 2 hours, filter and wash to obtain manganese dioxide; molar ratio of LiOH : Ni(NO 3 ) 2 : C 4 h 6 NiO 4 :MnO 2 =1:0.25:0.25:1.5 Weigh lithium hydroxide, nickel nitrate, nickel acetate and the manganese dioxide obtained in the previous step, disperse them in 20ml of ethanol, stir and volatilize the ethanol at room temperature to obtain the precursor; put the precursor into In the air atmosphere of a muffle furnac...

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Abstract

The invention discloses a method for preparing hollow high voltage nickel manganese acid lithium anode material, and belongs to the technical field of material synthesis. The method includes the steps that firstly, manganese carbonate is prepared and then calcined under a certain temperature to make the outer shell of the manganese carbonate become manganese dioxide, then, the inner core of the manganese carbonate is dissolved away with dilute acid, the manganese dioxide outer shell is left and mixed with a lithium source and a nickel source, and the hollow nickel manganese acid lithium material is obtained in a calcined mode. The nickel manganese acid lithium material prepared with the method is of a uniform micrometer/nanometer structure and is 1-5um secondary particulates formed by 30-400nm particulates, and primary particulates in small sizes shorten the transmission distance of lithium ions, increase the area of contact between electrodes and electrolytes, and improve the rate capacity. The nickel manganese acid lithium material particulates prepared with the method are of a hollow structure, gaps can buffer structural stress and size changes caused by ithiation, and circulating performance is improved.

Description

technical field [0001] The invention belongs to the technical field of material synthesis, and relates to a preparation method of a lithium ion battery positive electrode material, in particular to a preparation method of a hollow high-voltage lithium nickel manganese oxide positive electrode material. Background technique [0002] Energy is closely related to the survival and development of human beings. The demand for energy in modern society is increasing day by day. Realizing the sustainable development of energy is a severe challenge for human beings. Due to the limited reserves of fossil fuels, the oil crisis and global climate change in recent years have prompted people to accelerate the development and utilization of new energy sources, converting alternative energy sources such as solar energy, tidal energy, and wind energy into electrical energy. However, these new energy sources have the disadvantages of unsustainable power generation and high volatility, and requ...

Claims

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Application Information

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IPC IPC(8): H01M4/505H01M4/525
CPCY02E60/10
Inventor 王振波薛原李超张音玉富达刘宝生顾大明尹鸽平
Owner 南京时拓能源科技有限公司
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