Fabrication method of lithium ion battery

A lithium-ion battery and electrolyte technology, which is applied in the manufacture of electrolyte batteries, secondary batteries, non-aqueous electrolyte batteries, etc. The effect of battery cyclability, reducing volume expansion rate, and stabilizing battery potential

Active Publication Date: 2019-05-21
金明信(北京)科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Ethylene sulfate is a commonly used additive for lithium-ion battery electrolytes. Its function is to inhibit the decline in the initial capacity of the battery, increase the initial discharge capacity, reduce the expansion of the battery after high temperature storage, and improve the charge and discharge performance and cycle times of the battery. However, sulfuric acid The addition of ethylene ester will lead to an increase in the internal

Method used

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  • Fabrication method of lithium ion battery

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Effect test

Embodiment 1

[0028] In the electrolyte in this embodiment, ethylene sulfate accounts for 0.5% of the total volume of the electrolyte, and the concentration of sodium hexafluorophosphate in the electrolyte is 0.001mol / L;

[0029] 1), inject electrolyte;

[0030] 2), move the lithium-ion battery after liquid injection into the glove box and charge it to 3.6V with a constant current of 0.02C, wherein the atmosphere in the glove box is nitrogen containing 10% by volume of carbon dioxide;

[0031] 3) Charge with a constant voltage of 3.6V until the charging current drops below 0.01C;

[0032] 4), between 3.55-3.65V, use a current of 0.02C to perform constant current charge and discharge cycles for 3 times;

[0033] 5), adjust the atmosphere in the glove box, reduce the volume percentage of carbon dioxide in the nitrogen to 3%;

[0034] 6), between 3.55-3.65V, use a current of 0.02C to perform constant current charge and discharge cycles for 3 times;

[0035] 7) Charge with a constant current...

Embodiment 2

[0038] In the electrolyte in this embodiment, ethylene sulfate accounts for 3% of the total volume of the electrolyte, and the concentration of sodium hexafluorophosphate in the electrolyte is 0.02mol / L;

[0039] 1), inject electrolyte;

[0040] 2), move the lithium-ion battery after liquid injection into the glove box and charge it to 3.6V with a constant current of 0.02C, wherein the atmosphere in the glove box is nitrogen containing 15% by volume of carbon dioxide;

[0041] 3) Charge with a constant voltage of 3.6V until the charging current drops below 0.01C;

[0042] 4), between 3.55-3.65V, use a current of 0.02C to perform constant current charge and discharge cycles for 3 times;

[0043] 5), adjust the atmosphere in the glove box, reduce the volume percentage of carbon dioxide in the nitrogen to 2%;

[0044] 6), between 3.55-3.65V, use a current of 0.02C to perform constant current charge and discharge cycles for 3 times;

[0045] 7) Charge with a constant current of...

Embodiment 3

[0048] In the electrolyte in this embodiment, ethylene sulfate accounts for 1% of the total volume of the electrolyte, and the concentration of sodium hexafluorophosphate in the electrolyte is 0.01mol / L;

[0049] 1), inject electrolyte;

[0050] 2), move the lithium-ion battery after liquid injection into the glove box and charge it to 3.6V with a constant current of 0.02C, wherein the atmosphere in the glove box is nitrogen containing 10% by volume of carbon dioxide;

[0051] 3) Charge with a constant voltage of 3.6V until the charging current drops below 0.01C;

[0052] 4), between 3.58-3.62V, use a current of 0.02C to perform constant current charge and discharge cycles for 3 times;

[0053] 5), adjust the atmosphere in the glove box, the volume percentage of carbon dioxide in the nitrogen is reduced to 0;

[0054] 6), between 3.58-3.62V, use a current of 0.02C to perform constant current charge and discharge cycles for 3 times;

[0055] 7) Charge with a constant current...

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Abstract

The invention provides a fabrication method of a lithium ion battery. An electrode of the lithium ion battery comprises ethylene sulfate and sodium hexafluorophosphate used as an additive, wherein theethylene sulfate accounts for 0.5-3% of the total volume of the electrolyte, and the concentration of the sodium hexafluorophosphate in the electrolyte is 0.001-0.02mol/L. A formation method comprises the steps of 1, formation under an atmosphere of high-concentration CO2; and 2, formation under an atmosphere of low-concentration or zero-concentration CO2. By the method, a stable SEI membrane isformed, the internal resistance rising is prevented, and the volume expansion rate of the battery after circulation, particularly after circulation in a high-temperature environment is reduced.

Description

technical field [0001] The invention relates to the technical field of flexible packaging lithium ion batteries, in particular to a preparation method of lithium ion batteries. Background technique [0002] The new policy of new energy vehicles has released a signal to promote battery performance and increase energy density. With the continuous improvement of the subsidy threshold, lithium-ion batteries, as a means of lightweight and high-energy batteries, occupy a relatively high proportion of the market. Lithium-ion batteries can help more battery companies improve energy density and product competitiveness. Ethylene sulfate is a commonly used additive for lithium-ion battery electrolytes. Its function is to inhibit the decline in the initial capacity of the battery, increase the initial discharge capacity, reduce the expansion of the battery after high temperature storage, and improve the charge and discharge performance and cycle times of the battery. However, sulfuric ...

Claims

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Application Information

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IPC IPC(8): H01M10/0567H01M10/0525H01M10/058H01M10/44H01M10/42
CPCY02E60/10Y02P70/50
Inventor 李壮
Owner 金明信(北京)科技有限公司
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