Battery electrolyte additive and electrolyte giving consideration to high and low temperature properties as well as nickelic ternary lithium ion battery

An electrolyte additive and additive technology, applied in electrical components, secondary batteries, circuits, etc., can solve the problem of inability to balance high and low temperature performance of batteries, and achieve the effects of improving room temperature cycle performance, improving low temperature cycle performance, and reducing interface impedance.

Active Publication Date: 2019-05-14
산산어드밴스드머테리얼스(취저우)컴퍼니리미티드
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The electrolyte of the present invention combines the advantages of electrolyte additives of different components to provide an electrolyte that can effectively improve the performance of high-nickel ternary lithium-ion power batteries, and has good cycle performance and

Method used

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  • Battery electrolyte additive and electrolyte giving consideration to high and low temperature properties as well as nickelic ternary lithium ion battery
  • Battery electrolyte additive and electrolyte giving consideration to high and low temperature properties as well as nickelic ternary lithium ion battery
  • Battery electrolyte additive and electrolyte giving consideration to high and low temperature properties as well as nickelic ternary lithium ion battery

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0050] Electrolyte preparation: In a glove box filled with argon, mix ethylene carbonate, dimethyl carbonate and propylene carbonate according to the mass ratio of EC:DMC:EMC=1:1:1, and then slowly add to the mixed solution Add 12.5wt% lithium hexafluorophosphate (LiPF 6 ), 0.5wt% lithium difluorophosphate (LiPO 2 f 2 ) and 2.5wt% lithium bisfluorosulfonimide (LiFSI) based on the total weight of the electrolyte, and finally add 1.0wt% compound A with the structure shown in formula I and 0.5wt% compound A with the formula II based on the total weight of the electrolyte Compound B of the structure (see Table 1 for the specific selection of compound A and B), 1.0wt% fluoroethylene carbonate (FEC) and 2.0wt% vinyl sulfate (DTD), and the lithium-ion battery of Example 1 was obtained after uniform stirring electrolyte.

[0051] Preparation of soft-pack battery: stack the prepared positive electrode sheet, separator, and negative electrode sheet in order, so that the separator is ...

Embodiment 2-9

[0053] Embodiment 2-9 and comparative example 1-5

[0054] In Examples 2-9 and Comparative Examples 1-5, except that the composition ratio of the components of the electrolyte is in accordance with the additives shown in Table 1, the others are the same as in Example 1.

[0055] Table 1 Embodiment 1-9 and the composition ratio of each component of the electrolyte of comparative example 1-5

[0056]

[0057]

[0058] Performance Testing

[0059] Carry out performance test to the full battery that embodiment 1-9 and comparative example 1-5 make:

[0060] (1) Cycling performance test at room temperature: At 25°C, charge the divided battery to 4.2V at 1C constant current and constant voltage, with a cut-off current of 0.05C, then discharge at 1C constant current to 3.0V, and cycle accordingly. / After 1000 cycles of discharge, calculate the 1000th cycle capacity retention rate, the calculation formula is as follows:

[0061] 1000th cycle capacity retention rate (%)=(1000t...

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Abstract

The invention discloses a battery electrolyte additive and electrolyte which give consideration to high and low temperature properties as well as a nickelic ternary lithium ion battery. The additive disclosed by the invention contains a fluorine-containing phenyl sulfonate type compound additive A with a structure shown in a formula I, an annular sulfonate type additive B with a structure shown ina formula II and the conventional anode film formation additives, and the battery electrolyte giving consideration to high and low temperature properties comprises electrolyte lithium salt, a nonaqueous organic solvent and the additive disclosed by the invention. The electrolyte disclosed by the invention can effectively improve performance of a nickelic ternary lithium ion power battery by virtue of synergistic effect produced by joint use of the three kinds of additives and by combining the advantages of electrolyte additives of different components and respectively has good electrochemicalperformances such as cycle performance, rate capability, storage performance and safety performance under high temperature and low temperature conditions, so that the problem that an existing batterycan not give consideration to high and low temperature properties is solved.

Description

technical field [0001] The invention relates to the field of lithium-ion batteries, in particular to a battery electrolyte additive, electrolyte and a high-nickel ternary lithium-ion battery with both high and low temperature performance. Background technique [0002] my country's new energy automobile industry is booming along with the policy warm wind, and the power battery market has a broad space. However, the current power battery is still dominated by lithium iron phosphate, which has limited specific energy, and it will be difficult to meet the needs of passenger vehicles in terms of cruising range in the future. Therefore, the pursuit of high specific energy performance indicators is an important research and development direction of lithium-ion power batteries. [0003] Due to its high reversible specific capacity, low price and environmental friendliness, high-nickel materials have become a research hotspot in materials and energy disciplines, and are also the pre...

Claims

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Application Information

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IPC IPC(8): H01M10/0525H01M10/0566H01M10/0567
CPCY02E60/10
Inventor 张丽娟朱学全大浦靖郭力刘津宏
Owner 산산어드밴스드머테리얼스(취저우)컴퍼니리미티드
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