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Gel-state electrode and preparation method thereof

A gel state and electrode technology, which is applied in the field of gel state electrodes and its preparation, can solve the problems that are not conducive to the contact between the electrode and the solid electrolyte interface, the ion transmission speed inside the electrode is not ideal, and the volume change of the electrode cannot be effectively suppressed. Achieve the effect of improving interface contact, avoiding the increase of raw material cost, and improving the rate performance

Active Publication Date: 2021-09-21
SHANGHAI INST OF SPACE POWER SOURCES
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Although these methods have a certain effect on promoting the ion transport inside the electrode, due to the solid-solid contact characteristics of the solid electrolyte particles and the active material particles, the ion transport speed inside the electrode is still not ideal, and the prepared composite electrode is in a solid form. , not only cannot effectively suppress the volume change of the electrode, but also is not conducive to the interfacial contact between the electrode and the solid electrolyte
In addition, the preparation of electrodes currently requires the use of a large amount of organic solvents, which not only pollutes the environment and increases the cost of raw materials, but also increases the production time and reduces production efficiency due to the drying of the solvents.

Method used

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  • Gel-state electrode and preparation method thereof

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Effect test

Embodiment 1

[0040] At 60°C, 5mol% LiTFSI was dissolved in succinonitrile to prepare a succinonitrile-based plastic crystal electrolyte, then 7wt% FEC was added, and PEO (polyethylene oxide) was added after fully stirring. The mass ratio of PEO and succinonitrile-based plastic crystal electrolyte is 1:20. After fully stirring and dissolving, a transparent gel-state ion-conductive substance is obtained. In LiCoO 2 In the powder and 10wt% of SP, add 35wt% of the gel state substance, after grinding evenly, the composite cathode slurry is evenly coated on the Li 6.4 La 3 Zr 1.4 Ta 0.6 o 12 One side of the ceramic sheet is pasted with aluminum foil as a current collector, and placed in an oven at 60°C for a period of time. By weighing the quality of the ceramic sheet before and after coating, the quality of the composite positive electrode can be obtained.

[0041] according to figure 1 And formula σ=L / (R S), wherein L, R and S are respectively the thickness (0.6mm) of the gel state mat...

Embodiment 2

[0044] At 60°C, 5mol% LiTFSI was dissolved in succinonitrile to prepare a succinonitrile-based plastic crystal electrolyte, then 5wt% FEC was added, and PEO was added after fully stirring. The mass ratio of PEO and succinonitrile-based plastic crystal electrolyte is 1:20. After fully stirring and dissolving, a transparent gel-state ion-conductive substance is obtained. In LiCoO 2 In the powder and 10wt% SP, add 45wt% of the gel state substance, after grinding evenly, the composite positive electrode slurry is evenly coated on the Li 6.4 La 3 Zr 1.4 Ta 0.6 o 12 One side of the ceramic sheet is pasted with a stainless steel mesh as a current collector, and placed in an oven at 60°C for a period of time.

Embodiment 3

[0046] At 60 °C, 5 mol% LiTFSI and 1 mol% LiPF 6 Dissolve in succinonitrile to prepare succinonitrile-based plastic crystal electrolyte, and then add 5wt% FEC. After fully stirring evenly, add cyanoethylated polyvinyl alcohol (PVA-CN) at 50°C. The mass fraction of PVA-CN in the succinonitrile-based plastic crystal electrolyte is 5%. After fully stirring and dissolving, add 50wt% LiCoO 2 powder and 10wt% SP, after uniform grinding, the composite cathode slurry was evenly coated on the Li 6.4 La 3 Zr 1.4 Ta 0.6 o 12 One side of the ceramic sheet, and paste aluminum foil as a current collector. Then, it was placed in an oven and heat-treated at 70° C. for 6 hours to generate cross-linking of PVA-CN.

[0047] Owing to the structural similarity, PVA-CN is easily dissolved in the molten succinonitrile-based plastic crystal electrolyte. During heat treatment, LiPF 6 PF produced by decomposition 5 It can initiate cross-linking of PVA-CN.

[0048] In summary, the present inv...

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Abstract

The invention discloses a gel-state electrode and a preparation method thereof. The electrode comprises an electrode active material, a conductive agent, SN, a lithium salt, a polymer and an additive. The preparation method comprises the following steps of dissolving the lithium salt and the additive in SN at 60-80 DEG C, adding the polymer, and fully stirring and dissolving to form a gel-state substance, and then, mixing the prepared gel-state substance, an electrode active material and a conductive agent, stirring or uniformly grinding, and coating one side of a solid electrolyte with the mixture to serve as the gel-state electrode of the solid-state battery. According to the type of the added polymer, whether cross-linking treatment is carried out or not is determined. The lithium salt can be completely dissolved in SN to form a plastic crystal electrolyte, and the selected polymer can also be dissolved in the plastic crystal electrolyte. According to the gel-state electrode provided by the invention, the contact performance between the electrode and the solid electrolyte can be improved, the ion transmission in the electrode can be improved, and the negative effect on the battery performance caused by the volume change generated in the charging and discharging process of the electrode active material can also be inhibited.

Description

technical field [0001] The invention relates to the technical field of electrochemistry and new energy materials, in particular to a gel state electrode and a preparation method thereof. Background technique [0002] At present, among various commercial batteries, lithium-ion batteries have the highest energy density and are widely used in various electronic devices. The rapid development of electric vehicles and large-scale energy storage systems has placed higher requirements on the energy density and safety of lithium-ion batteries. However, traditional lithium-ion batteries use organic electrolytes, which have safety risks of leakage, combustion or even explosion, and the electrochemical window is narrow. When lithium metal is used as the negative electrode, lithium dendrites are serious. These problems limit the development of lithium-ion batteries. improved safety and energy density. [0003] Solid electrolytes have a wide electrochemical window, are non-flammable, h...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01M4/13H01M4/62H01M4/139H01M4/04
CPCH01M4/13H01M4/624H01M4/622H01M4/139H01M4/0407Y02E60/10
Inventor 吴洁朱蕾田文生赵玉辉韩松益国洪遥吴勇民汤卫平
Owner SHANGHAI INST OF SPACE POWER SOURCES
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