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Electrolyte and lithium-ion battery

A lithium-ion battery and electrolyte technology, applied in the field of lithium-ion batteries, can solve problems such as limitation below 60°C, impact on lithium battery performance, battery leakage and fire, etc., to reduce viscosity, reduce gasification, and prevent redox reactions Effect

Active Publication Date: 2021-11-09
EVE ENERGY CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Although general lithium-ion batteries can withstand use in relatively high temperature environments, due to the limitation of the key material in lithium-ion batteries-electrolyte, the upper limit temperature is limited below 60°C
[0003] However, the temperature of the above-mentioned electronic products that are on-board or exposed to direct sunlight will rise to 70°C or higher if they are stored for a long time under strong sunlight in summer
Under such temperature conditions, the performance of the lithium battery will be greatly affected, and even more serious, the lithium battery will be bulged by strong heat and break the electrical appliances, and the battery itself may leak and catch fire.
Therefore, the current commercial lithium-ion batteries have higher requirements on the use environment, which limits their application in higher temperature environments.
Although there are some lithium batteries on the market that can meet the application of 70°C environment, but these are the cathode materials with relatively low voltage, low energy density and poor battery life.

Method used

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  • Electrolyte and lithium-ion battery
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Examples

Experimental program
Comparison scheme
Effect test

Embodiment approach

[0022] In one embodiment, an electrolyte solution includes a high-temperature organic solvent, positive and negative electrode protection additives, and an electrolyte lithium salt. Wherein, the high-temperature organic solvent includes the following components in parts by weight: 5-30 parts of ethylene carbonate, 5-30 parts of propylene carbonate, 5-30 parts of diethyl carbonate, 5-50 parts of propyl propionate parts and 1 to 10 parts of fluorobenzene. Wherein, the positive and negative protection additives include the following components in parts by weight: 0.2-5 parts of vinyl sulfate, 0.2-5 parts of fluoroethylene carbonate, 0.2-5 parts of difluoroethylene carbonate, dinitriles 0.2-5 parts of organic matter, 0.2-3 parts of lithium difluorophosphate, 0.2-5 parts of diethylene glycol bispropionitrile ether, 0.2-3 parts of lithium fluorosulfonimide, 0.1-2 parts of 1-propyl phosphoric anhydride, 0.5-20 parts of 1,1,2,2-tetrafluoroethyl-2,2,3,3-tetrafluoropropyl ether, 0.1-2 ...

Embodiment 1

[0039] A lithium ion battery comprises a positive electrode sheet, a negative electrode sheet, a separator and an electrolyte, and the separator and the electrolyte are spaced between the positive electrode sheet and the negative electrode sheet. The charge and discharge voltage range is 3V ~ 4.45V.

[0040] The positive electrode sheet includes a positive electrode current collector and a positive electrode active material layer coated on the surface of the positive electrode current collector. The positive electrode active material layer includes lithium cobalt oxide, positive electrode conductive carbon and positive electrode binder, lithium cobalt oxide, positive electrode conductive carbon and positive electrode binder. The mass ratio is 98.5:0.5:1.0.

[0041] The negative electrode sheet includes a negative electrode current collector and a negative electrode active material layer coated on the surface of the negative electrode current collector. The negative electrode a...

Embodiment 2

[0045] A lithium ion battery comprises a positive electrode sheet, a negative electrode sheet, a separator and an electrolyte, and the separator and the electrolyte are spaced between the positive electrode sheet and the negative electrode sheet.

[0046] The positive electrode sheet includes a positive electrode current collector and a positive electrode active material layer coated on the surface of the positive electrode current collector. The positive electrode active material layer includes lithium cobalt oxide, positive electrode conductive carbon and positive electrode binder, lithium cobalt oxide, positive electrode conductive carbon and PVDF binder The mass ratio is 97.0:0.03:0.8.

[0047] The negative electrode sheet includes a negative electrode current collector and a negative electrode active material layer coated on the surface of the negative electrode current collector. The negative electrode active material layer includes graphite, PAA binder, CMC binder and ne...

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Abstract

The invention relates to the field of lithium-ion batteries, and discloses an electrolyte, including a high-temperature organic solvent, positive and negative electrode protection additives, and electrolyte lithium salt; wherein, the high-temperature organic solvent includes the following components in parts by weight: ethylene carbonate 5-30 parts, 5-30 parts of propylene carbonate, 5-30 parts of diethyl carbonate, 5-50 parts of propyl propionate and 1-10 parts of fluorobenzene; the positive and negative electrode protection additives include the following parts by weight Components: 0.2-5 parts of vinyl sulfate, 0.2-5 parts of fluoroethylene carbonate, 0.2-5 parts of difluoroethylene carbonate, 0.2-5 parts of dinitrile organic matter, 0.2-3 parts of lithium difluorophosphate, bis 0.2-5 parts of ethylene glycol bispropionitrile ether, 0.2-3 parts of lithium fluorosulfonimide, 0.1-2 parts of 1-propyl phosphoric anhydride, 1,1,2,2-tetrafluoroethyl-2,2 , 0.5-20 parts of 3,3-tetrafluoropropyl ether, 0.1-2 parts of lithium difluorooxalate borate and 0.1-1 part of methylene disulfonate. The electrolyte solution has excellent high-temperature resistance performance, can enable lithium-ion batteries with high energy density to work normally at a temperature above 70° C., and can maintain better battery life.

Description

technical field [0001] The invention relates to the field of lithium ion batteries, in particular to an electrolyte solution and a lithium ion battery. Background technique [0002] With the rapid development of portable electronic products, lithium-ion batteries that provide energy for their work have also penetrated into every corner of our lives. Some in-vehicle and outdoor products exposed to direct sunlight will be challenged by high temperature conditions during placement or work. Although general lithium-ion batteries can withstand use in a relatively high temperature environment, due to the limitation of the key material in lithium-ion batteries-electrolyte, its upper limit temperature is limited below 60°C. [0003] However, the temperature of the above-mentioned electronic products that are on-board or exposed to direct sunlight will rise to 70° C. or higher if they are stored for a long time under strong sunlight in summer. Under such temperature conditions, the...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01M10/0566H01M10/0567H01M10/0569H01M10/0568H01M10/0525
CPCH01M10/0525H01M10/0566H01M10/0567H01M10/0568H01M10/0569H01M2300/0025H01M2300/0088Y02E60/10
Inventor 刘荣江洪斯凡朱红庆邱传洲党欢王理刘金成
Owner EVE ENERGY CO LTD
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