A kind of single-crystal type high-nickel multi-component material precursor

A precursor, single-crystal-like technology, applied in electrical components, structural parts, battery electrodes, etc., can solve the problems of increased extra cost, many structural defects, dissolution of metal cations, etc., to improve the uniformity of coating and the ionic conductivity. rate, the effect of reducing the interface reaction

Active Publication Date: 2021-08-03
TIANJIN ENERGIES
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] However, there are still some problems with the high-nickel multi-component material used as the positive electrode material of the power battery: (1) The material is mostly a secondary agglomerated ball, and its internal and external primary particle sizes are small and have many structural defects. (2) The internal pores of the multi-element positive electrode material are large, the volumetric energy density is low, and the internal particles are difficult to cover. During the charge-discharge cycle, the electrolyte gradually soaks into the porous positive electrode material and interface with the electrolyte occurs. reaction, resulting in the destruction of the material structure and the serious dissolution of metal cations, which eventually leads to the degradation of cycle (especially high temperature cycle) performance and safety performance
(3) The secondary agglomeration structure of the multi-component positive electrode material is easily crushed during the preparation of the positive electrode sheet of the battery, resulting in the exposure of the internal particles of the material, the intensification of interface side reactions and the dissolution of metal ions, and the large capacity of the battery during high-temperature cycling. attenuation
However, due to the high calcination temperature used in this method, the high temperature will seriously damage the high-capacity characteristics of high-nickel materials and cannot be applied to high-nickel materials.
[0005] At the same time, due to the nickel-rich multi-component material, there are more residual lithium salts on the surface after roasting, which has a higher pH value and continues to absorb water, which has a greater impact on the homogenization process
Most manufacturers reduce the lithium salt on the surface of high-nickel materials by means of water washing or pickling, but studies have shown that water washing will reduce the cycle stability and rate performance of high-nickel materials, which is very important for positive electrodes such as power batteries that have high requirements for life and power performance. The material is difficult to be practical
At the same time, coating and multiple firings after washing will increase additional costs

Method used

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  • A kind of single-crystal type high-nickel multi-component material precursor

Examples

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Effect test

Embodiment 1

[0033] A kind of single crystal type high-nickel multi-element material precursor, the chemical formula of this precursor is Ni 8.2 co 1 mn 0.8 (OH) 2 .

[0034] Described precursor is made by the method comprising the following steps:

[0035] (1) Add 5L bottom liquid and 5g sodium citrate in the reaction kettle bottom liquid of nitrogen protection atmosphere;

[0036] (2) Configure 20L of nickel-cobalt-manganese ternary salt solution with a concentration of 2M, the molar ratio of nickel-cobalt-manganese is 8.2:1:0.8, and add the configured nickel-cobalt-manganese into the reactor at a speed of 600rpm at a constant speed of 1L / h. Stir the ternary salt solution with 35g of methylcellulose until completely dissolved, and at the same time control the pH value at 10.6±0.02 by adding a sodium hydroxide solution containing ammonia water until the salt solution is completely injected;

[0037] (3) Add 0.5M niobium nitrate and 0.5M ammonium bicarbonate solution at the same rate,...

Embodiment 2

[0041] A kind of single crystal type high-nickel multi-element material precursor, the chemical formula of this precursor is Ni 6 co 2 mn 2 (OH) 2 .

[0042] Described precursor is made by the method comprising the following steps:

[0043] (1) Add 5L bottom liquid and 5g citric acid in the reaction kettle bottom liquid of nitrogen protection atmosphere;

[0044] (2) Configure 20L of nickel-cobalt-manganese ternary salt solution with a concentration of 2M, the molar ratio of nickel-cobalt-manganese is 6:2:2, and add the configured nickel-cobalt-manganese into the reaction kettle at a constant speed of 1L / h at a speed of 800rpm Stir the ternary salt solution with 35g of methylcellulose until completely dissolved, and at the same time control the pH value at 10.95±0.02 by adding a sodium hydroxide solution containing ammonia until the salt solution is completely injected;

[0045] (3) Add 0.5M zirconium nitrate and 0.5M ammonium bicarbonate solution at the same rate, and stop...

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Abstract

The present invention provides a kind of single-crystal high-nickel multi-component material precursor, which is characterized in that: the general chemical formula of the precursor is Ni (1‑a‑b) co a mn b (OH) 2 , where 1>1‑a‑b≥0.6, 0.4≥a≥0, 1≥b>0. The precursor of quasi-single-crystal type high-nickel multi-element material described in the present invention starts with the microstructure of the material, and controls the growth of the precursor in the early stage of the co-precipitation reaction by adding a dispersant in the bottom liquid of the reaction kettle, increases the amount of nucleation, and avoids the formation of common The needle-like or dot-like primary particle morphology precursor, at the same time, utilizes the cellulose thickener in the salt solution to form the radial growth of the primary particle at a low pH value at a high rotational speed, and finally forms a sheet-like morphology structure.

Description

technical field [0001] The invention belongs to the field of lithium-ion batteries, and in particular relates to a single-crystal type high-nickel multi-component material precursor. Background technique [0002] Nickel-cobalt lithium manganese oxide multi-component positive electrode material (hereinafter referred to as multi-component positive electrode material) is a new type of high-capacity lithium-ion battery positive electrode material. Generally, nickel is the main electrochemically active material in the multi-component material, and cobalt can reduce the electrochemical polarization of the material and improve Manganese can improve structural stability and thermal stability, so the synergistic effect of two or three elements in nickel-cobalt-manganese makes the multi-element positive electrode material have good structural stability and comprehensive electrochemical performance, in terms of safety performance, cycle performance and It has certain advantages in term...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01M4/36H01M4/50H01M4/52H01M4/62H01M10/0525
CPCH01M4/366H01M4/502H01M4/523H01M4/624H01M10/0525Y02E60/10
Inventor 郭建高秀玲李文文王驰伟
Owner TIANJIN ENERGIES
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