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Lithium negative electrode preform, preparation method thereof, lithium negative electrode, and lithium secondary battery

A technology of lithium metal negative electrode and prefabricated parts, which is applied in the protection of lithium metal negative electrode and the field of lithium metal secondary batteries, and can solve the problems of unstable SEI film, reduced Coulombic efficiency, uneven distribution of current density, etc.

Pending Publication Date: 2018-07-24
CHINA ENERGY CAS TECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] However, when metal lithium is used as a negative electrode, there are the following problems: (1) the solid electrolyte layer (SEI film) formed at the interface between metal lithium and electrolyte thickens with time, the interface impedance continues to increase, the Coulombic efficiency decreases, and the battery capacity decays rapidly; ( 2) The SEI film is unstable, and it breaks-falls-regenerates continuously during the lithium-deintercalation process, consuming metallic lithium and electrolyte; (3) The current density distribution during the lithium deposition-extraction process is uneven, forming lithium dendrites, causing safety Hidden dangers and "dead lithium" cause Coulombic efficiency to decrease
[0004] Aiming at these problems of metal lithium anodes, common methods include adding additives to the electrolyte to form a dense and stable SEI film, or using various inorganic, organic, and physical methods to modify the metal lithium anode to isolate the lithium anode from the electrolyte. For example, in CATL’s new energy application publication number CN107305950, a polymer protective film with ionic liquid is coated on the surface of lithium metal. Due to the fluidity of the liquid, it is easy to cause uneven coating. The lithium metal secondary battery using this as the negative electrode will lead to uneven current density during the cycle, and then generate lithium dendrites, resulting in deterioration of battery performance
[0005] It is a development trend that solid-state electrolytes replace the commonly used organic electrolytes. At present, the production process of all-solid-state batteries is generally that the positive and negative electrodes and all-solid-state electrolytes are combined under a certain pressure. Therefore, the interface contact with the positive and negative electrodes is not close, and after a long cycle, there is a situation of rapid attenuation, and the application is also subject to certain limitations.

Method used

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  • Lithium negative electrode preform, preparation method thereof, lithium negative electrode, and lithium secondary battery
  • Lithium negative electrode preform, preparation method thereof, lithium negative electrode, and lithium secondary battery
  • Lithium negative electrode preform, preparation method thereof, lithium negative electrode, and lithium secondary battery

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Embodiment 1

[0034] Example 1: Choose PET with a thickness of 5 μm as the plastic substrate, mix polyvinylidene fluoride, lithium trifluoromethanesulfonate, and titanium dioxide in a mass ratio of 100:40:20, and heat it to a molten state. Extruded onto a PET substrate, the thickness is controlled to be 5 μm, and after cooling, it is combined with a lithium strip with a thickness of 40 μm in a dry environment at 25 ° C, and the pressure is 10 MPa. After pressing, a lithium metal with a protective layer is formed. Negative electrode, and then put this negative electrode on the heating plate, set the heating temperature to 80 ° C, remove the plastic substrate, and at the same time, the solid electrolyte and the lithium metal negative electrode can also contact more closely under high temperature conditions, and form a protective film in situ; then A lithium metal negative electrode with a solid electrolyte and a lithium iron phosphate positive electrode constitute a laminated all-solid-state b...

Embodiment 2

[0035] Example 2: Select polyvinyl fluoride (PVF) with a thickness of 10 μm as the plastic substrate, and dissolve polyacrylonitrile, lithium acetate, aluminum oxide, and styrene-butadiene rubber in isopropanol according to the ratio of mass 100:45:25:10 Stir to form an emulsion with a solid content of 50%, and then spray the emulsion on the plastic substrate with a spraying equipment to control the thickness of 3 μm, and dry it at a temperature of 90°C for 55 minutes. The dried double layer The composite film and the lithium strip with a thickness of 25 μm are cold-pressed and composited at 30 ° C, and the pressure is 15 MPa. After pressing, a lithium metal negative electrode with a protective layer is formed, and then the negative electrode is placed on a heating plate, and the heating temperature is set to 90 ℃, remove the plastic substrate, and at the same time, the solid electrolyte and the lithium metal negative electrode can also contact more closely under high temperatu...

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Abstract

The invention relates to a lithium negative electrode preform, a preparation method thereof, a lithium negative electrode, and a lithium secondary battery. The lithium negative electrode preform is prepared by integrally laminating a plastic base layer, a solid electrolyte layer, and a lithium layer. The manufacturing is simple and easy to perform. The contact interface between the lithium negative electrode and solid electrolyte is effectively improved to prevent the formation of lithium dendritic crystals, and the performance of an all solid state battery is obviously enhanced.

Description

technical field [0001] The invention relates to the technical field of lithium metal batteries, in particular to a method for protecting a lithium metal negative electrode and a lithium metal secondary battery. Background technique [0002] With the increasing environmental pollution and the depletion of fossil fuels, the field of new energy has attracted more and more attention. At present, lithium-ion batteries, as the main energy storage devices, are not only widely used in portable electronic products but also in the automotive industry due to their high operating voltage, good cycle performance, high energy density and power density, and environmental friendliness. With the research and development of battery products and the increase of the cruising range of automobiles, the current lithium-ion battery anode material graphite used in batches has reached the theoretical limit (372mAh / g), and there is an urgent need to develop new materials, while metallic lithium has a ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01M4/13H01M4/139H01M10/052H01M10/056H01M10/0562H01M10/0565H01M10/058
CPCH01M4/13H01M4/139H01M10/052H01M10/056H01M10/0562H01M10/0565H01M10/058Y02E60/10Y02P70/50
Inventor 王亚龙陈强牟翰波孔德钰
Owner CHINA ENERGY CAS TECH CO LTD
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