An electrolyte additive of a high-pressure solid lithium iron phosphate battery and an electrolyte containing the additive

An electrolyte additive, lithium iron phosphate technology, applied in the direction of secondary batteries, circuits, electrical components, etc., can solve the problem of affecting the rate performance, discharge capacity and service life of lithium batteries, the limited ability to absorb organic electrolytes, and the inability to participate Improve the discharge rate characteristics, reduce the battery interface impedance, good thermal stability and chemical stability.

Active Publication Date: 2019-01-04
利信(江苏)能源科技有限责任公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

When disassembling and analyzing lithium batteries, we will find that batteries with poor cycle performance are often related to the poor infiltration effect of the electrolyte on the pole pieces.
When the infiltration effect of the electrolyte is not good, the ion transmission path becomes farther, which hinders the shuttle between the positive and negative electrodes of lithium ions, and the electrode pieces not in contact with the electrolyte cannot participate in the electrochemical reaction of the battery. At the same time, the inte

Method used

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  • An electrolyte additive of a high-pressure solid lithium iron phosphate battery and an electrolyte containing the additive
  • An electrolyte additive of a high-pressure solid lithium iron phosphate battery and an electrolyte containing the additive
  • An electrolyte additive of a high-pressure solid lithium iron phosphate battery and an electrolyte containing the additive

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Embodiment 1

[0027] An electrolyte solution containing an electrolyte additive for a high-pressure lithium iron phosphate battery, the specific calculation formula of 100g electrolyte is: 25.65g ethylene carbonate, 59.85g methyl ethyl carbonate, 0.5g C 9 h 19 C 6 h 4 O(CH 2 CH 2 O) 6 -PO(OH) 2 , 1.5g vinylene carbonate, 12.5g LiPF 6 ; The specific preparation method is: prepare the electrolyte solution in a BRAUN glove box, the glove box is filled with argon gas with a purity of 99.999%, the moisture in the glove box is controlled at ≤ 5ppm, and the temperature is at room temperature; 25.65g ethylene carbonate, 59.85g carbonic acid Methyl ethyl ester, 0.5g C 9 h 19 C 6 h 4 O(CH 2 CH 2 O) 6 -PO(OH) 2 , 1.5g vinylene carbonate and mix evenly, then add 12.5gLiPF 6 Mix well to form 1.0mol / L LiPF 6 a.

Embodiment 2

[0031]An electrolyte solution containing an electrolyte additive for a high-pressure lithium iron phosphate battery, the specific calculation formula of 100g electrolyte is: 24.75g ethylene carbonate, 33.0g methyl ethyl carbonate, 24.75g dimethyl carbonate, 0.5g C 9 h 19 C 6 h 4 O(CH 2 CH 2 O) 8 -PO(OH) 2 , 2.5g vinylene carbonate, 14.5g LiPF 6 ; The specific preparation method is: prepare the electrolyte solution in a BRAUN glove box, the glove box is filled with argon gas with a purity of 99.999%, the moisture in the glove box is controlled at ≤ 5ppm, and the temperature is at room temperature; 24.75g ethylene carbonate, 33.0g carbonic acid Methyl ethyl ester, 24.75g dimethyl carbonate, 0.5g C 9 h 19 C 6 h 4 O(CH 2 CH 2 O) 8 -PO(OH) 2 , 2.5g vinylene carbonate and mix evenly, then add 14.5g LiPF 6 Mix well to form 1.2mol / L LiPF 6 a.

Embodiment 3

[0035] An electrolyte solution containing an electrolyte additive for a high-pressure lithium iron phosphate battery, the specific calculation formula of 100g electrolyte is: 24.6g ethylene carbonate, 41.0g methyl ethyl carbonate, 16.4g diethyl carbonate, 1.5g C 9 h 19 C 6 h 4 O(CH 2 CH 2 O) 12 -PO(OH) 2 , 1.0g vinylene carbonate, 1.0g 1,3-propane sultone, 12.5g LiPF 6 and 2.0gLiTFSI; the specific preparation method is: prepare the electrolyte solution in the BRAUN glove box, the glove box is filled with argon gas with a purity of 99.999%, the moisture in the glove box is controlled at ≤ 5ppm, and the temperature is at room temperature; 24.6g ethylene carbonate, 41.0g ethyl methyl carbonate, 16.4g diethyl carbonate, 1.5g C 9 h 19 C 6 h 4 O(CH 2 CH 2 O) 12 -PO(OH) 2 , 1.0g vinylene carbonate, 1.0g 1,3-propane sultone mixed evenly, then add 12.5gLiPF 6 Mix well with 2.0gLiTFSI to form 1.0mol / L LiPF 6 and a mixed electrolyte solution of 0.2mol / L LiTFSI.

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Abstract

The invention discloses an electrolyte additive of a high-pressure solid lithium iron phosphate battery and an electrolyte containing the additive, wherein the electrolyte additive comprises organic phosphorus esters with the following general formula: C9H19C6H4O (CH2CH2O) n; C9H19C6H4O (CH2CH2O) n; PO(OH)2, n=3-12; the electrolyte additive also comprises at least one kind of Vinylene carbonate, vinyl fluorocarbonate or 1, 3-propanesulfonic acid lactone and ethyl sulfite; The additive and that electrolyte, non-aqueous organic solvents form the electrolyte with the appropriate ratio, The electrolyte additive has the following advantages: By adding wetting additive, the surface tension of the electrolyte can be reduced, the wettability and permeability of the electrolyte to the electrode sheet and the membrane can be improved, the wetting time can be shortened, the production cost can be saved, the wetting effect can be improved, the interface impedance of the battery can be reduced, theutilization efficiency of the living matter can be improved, the battery capacity can be improved, and the discharge rate characteristic can be improved. Moreover, the impregnation additive has the advantages of high heat resistance stability, high chemical stability and low combustibility, and can improve the stability of electrolyte.

Description

technical field [0001] The invention relates to the field of electrolytes for lithium ion batteries, in particular to an electrolyte additive for a high-pressure compacted lithium iron phosphate battery and an electrolyte containing the additive. Background technique [0002] With the aggravation of the energy shortage situation and the improvement of human environmental awareness, in order to eradicate the impact of automobile exhaust on the environment, the research and development of electric vehicles has become a problem of concern to the world. At present, the two major technical routes that occupy the main market share in China-lithium iron phosphate battery and ternary battery have already occupied a dominant position in the fields of pure electric buses, pure electric passenger vehicles and special vehicles respectively. Among them, there is a large gap between lithium iron phosphate batteries and ternary batteries in terms of energy density, which directly puts grea...

Claims

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Application Information

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IPC IPC(8): H01M10/0567
CPCH01M10/0567Y02E60/10
Inventor 李中凯孙喜梅程君陈启多
Owner 利信(江苏)能源科技有限责任公司
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