Preparation method of semi-doped and semi-coated NCA positive electrode material
A cathode material and coating technology, applied in the field of NCA cathode material preparation, can solve the problems affecting capacity and cycle life, capacity and cycle decline, electrolyte side reactions, etc., so as to improve the ability to resist electrolyte corrosion and increase capacity and circulation, the effect of improving structural stability
Pending Publication Date: 2022-02-11
JILIN JIEN NICKEL IND
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Problems solved by technology
However, due to the high content of Ni, the NCA cathode material has the following problems during use: 1. Due to the strong oxidizing property of high-valent nickel, it is easy to have side reactions with the electrolyte, resulting in metal dissolution
2. Due to the large amount of excess LiOH and Li on the surface and inside of the particles 2 CO 3 , it is easy to react with the electrolyte to release gas during the charge and discharge process, resulting in poor storage performance and thermal stability, and at the same time, due to the presence of excessive residual lithium impurities, the capacity loss is large
3. The nickel content is high, and there is a mixed cation phenomenon in the reaction process, which is easy to cause structural collapse during the charge and discharge process, affecting its capacity and cycle life
This invention has several disadvantages: first,
Method used
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[0022] A preparation method of half-doped and half-coated NCA cathode material, such as figure 1 As shown, the following steps are included, and the following steps are carried out in sequence,
[0023] Step 1, the high nickel precursor Ni x co y al z (OH) 2 or high nickel precursor oxide with LiOH·H 2 O is mixed according to the ratio of lithium metal molar ratio of 1.0 to 1.1, calcined in an oxygen atmosphere of 700 ° C to 850 ° C, crushed and sieved to obtain the general formula Li a Ni x co y al z o 2 The positive electrode material LNCAO, wherein, 1.0
[0024] Step 2. Under an inert gas environment, weigh in a beaker to remove CO 2 of ultrapure water, the crystalline CoSO 4 placed in it, stirred and transferred the solution to a separatory funnel to obtain CoSO 4 coating fluid;
[0025] Step 3. Inject inert gas into the stirred tank, add water to the stirred tank, turn on the stirring paddle, put the LNCAO ...
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The invention discloses a preparation method of a semi-doped and semi-coated NCA positive electrode material, and belongs to the technical field of positive electrode materials of non-aqueous electrolyte secondary batteries, the high-nickel NCA positive electrode material of LiOH is used, the process is redesigned, residual lithium of the positive electrode material can be obviously reduced, the capacity is increased, expansion of the battery is reduced, and the safety of the battery is improved; and the structural stability of the material is effectively improved through a semi-doping semi-coating and Si coating method, the electrolyte erosion resistance of the material is improved, and the capacity and circulation of the battery are further increased.
Description
technical field [0001] The invention belongs to the technical field of positive electrode materials for non-aqueous electrolyte secondary batteries, and in particular relates to a preparation method of a half-doped, half-coated and Si-coated NCA positive electrode material. Background technique [0002] Due to the advantages of high energy density, small self-discharge, and good cycle performance, lithium-ion batteries are considered to be the most ideal energy storage devices in existing new energy vehicles. NCA cathode materials not only have high capacity and stable structure, but also have greatly improved safety. As we all know, Tesla has been using cylindrical batteries provided by Panasonic and LGC, which makes NCA attract more attention. However, due to the high content of Ni, the following problems occur in the use of NCA cathode materials: 1. Due to the strong oxidizing property of high-valent nickel, it is easy to have side reactions with the electrolyte, resulti...
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Patent Timeline
Login to view more IPC IPC(8): H01M4/62H01M4/485H01M4/525H01M10/0525
CPCH01M4/628H01M4/485H01M4/525H01M10/0525H01M2004/028H01M2004/021Y02E60/10
Inventor 赵超越董云龙
Owner JILIN JIEN NICKEL IND
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