Capacitive type lithium manganate power lithium-ion battery

A technology for capacitive lithium manganate and lithium ion batteries, which can be applied to hybrid capacitor electrodes, non-aqueous electrolyte battery electrodes, secondary batteries, etc., can solve the disadvantage of difficult processing, reduce the energy density of lithium ion batteries, and depend on uniformity, etc. problems, to achieve the effect of simplifying the winding or stacking structure, improving the poor high temperature performance, and improving the applicability of the equipment

Inactive Publication Date: 2016-03-16
李朝
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, in its technical proposal, activated carbon accounts for 5.0% to 50.0% of the capacity of the positive active material, and A-type materials such as soft carbon or hard carbon account for 50.0 to 95.0% of the capacity of the negative active material, seriously reducing the capacity of lithium-ion batteries. energy density; moreover, when A-type materials such as soft carbon or hard carbon are added to the negative electrode material and activated carbon is added to the positive electrode material, it needs to be added during the mixing process of the positive electrode and the negative electrode during the processing process, which is not only difficult to process but not conducive to production The efficiency is improved, and many uncertain factors are caused to the beating process of the positive and negative electrodes. The product quality is heavily dependent on the uniformity of the mixing pulp, and the quality risk is too high
[0004] At the same time, lithium manganese oxide, as a commonly used cathode material for lithium-ion batteries, has the characteristics of low cost, safety and good low-temperature performance, but its material itself is not very stable, easy to decompose and generate gas, and its cycle life decays quickly. Prone to bulging, poor high-temperature performance, and relatively short life, which directly limit the popularization and application of lithium manganate in lithium-ion batteries

Method used

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Examples

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Embodiment 1

[0030] Such as figure 1As shown, the present invention discloses a capacitive lithium manganate power lithium-ion battery, including a positive electrode sheet 1, a negative electrode sheet 2 and a separator 3, and the positive electrode sheet 1, negative electrode sheet 2 and separator 3 are designed to be wound or laminated at intervals , the separator 3 is arranged between the positive electrode sheet 1 and the negative electrode sheet 2, the positive electrode sheet 1 is a capacitive positive electrode sheet, the capacitive positive electrode sheet is a three-layer composite structure, and the positive electrode sheet includes a supercapacitor positive electrode layer 9. The positive electrode layer 11 of the lithium ion battery and the positive electrode current collector layer 10, the positive electrode layer 9 of the supercapacitor and the positive electrode layer 11 of the lithium ion battery are respectively coated on the negative and positive surfaces of the positive ...

Embodiment 2

[0032] Such as figure 2 As shown, the positive electrode sheet 1, the negative electrode sheet 2 and the separator 3 are stacked at intervals to form a square structure. The capacitive lithium manganate power lithium-ion battery described in this application has a square laminated structure, and the battery is packaged into a square shape through an aluminum-plastic film 8, and the separator 3 covers the negative electrode sheet 2 and the positive electrode sheet 1, and the negative electrode sheet 2 and the positive electrode sheet 1 are mutually The positive electrode layer 9 of the supercapacitor and the positive electrode layer 11 of the lithium-ion battery are dislocated and spaced apart in the lamination. The capacitive lithium manganate power lithium ion battery also includes a lithium ion battery electrolyte, and the lithium ion battery electrolyte is composed of a solvent, an electrolyte salt and an additive, wherein the solvent is composed of dimethyl carbonate (DMC...

Embodiment 3

[0034] Such as image 3 As shown, the positive electrode sheet 1, the negative electrode sheet 2 and the separator 3 are wound at intervals to form a cylindrical structure. The capacitive lithium manganese oxide power lithium-ion battery described in this application has a cylindrical winding structure, and the wound battery core is arranged in a cylindrical steel shell 4, and the separator 3 covers the negative electrode sheet 2 and the positive electrode sheet 1, and the negative electrode sheet 2 and the positive electrode sheet 1 are spaced apart from each other, the positive electrode layer 9 of the supercapacitor and the positive electrode layer 11 of the lithium-ion battery are dislocated and spaced apart in the lamination, and a cap 6 is welded on the steel shell 4, and an insulating sheet 5 is arranged between the cap 6 and the cell. The cap 6 is connected with the positive electrode sheet 1 , and the bottom of the steel case 4 is connected with the negative electrode...

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Abstract

The invention discloses a capacitive type lithium manganate power lithium-ion battery. The capacitive type lithium manganate power lithium-ion battery comprises positive electrode plates, negative electrode plates and a membrane, wherein the positive electrode plates, the negative electrode plates and the membrane are wound or laminated with one another at intervals, the membrane is arranged between the positive electrode plates and the negative electrode plates, the positive electrode plates are capacitive type positive electrode plates, the capacitive type positive electrode plates are of three-layer composite structures, each positive electrode plate comprises a supercapacitor positive electrode layer, a lithium-ion battery positive electrode layer and a positive electrode current collector layer, the supercapacitor positive electrode layer and the lithium-ion battery positive electrode layer are respectively coated on a negative surface and a positive surface of a positive electrode current collector, the supercapacitor positive electrode layer is an activated carbon electrode material layer, the lithium-ion battery positive electrode layer is a lithium manganate positive electrode material layer, and the negative electrode layer is a mixture of a natural graphite layer, an artificial graphite layer, soft carbon and hard carbon. The capacitive type lithium manganate power lithium-ion battery disclosed by the invention has the characteristics of high device applicability, excellent performance, moderate quality, high production efficiency and low cost, and is convenient to process.

Description

technical field [0001] The invention relates to the technical field of lithium ion batteries, in particular to a capacitive lithium manganate power lithium ion battery. Background technique [0002] With the rapid development of informatization and intelligence in modern society, as well as the increasingly serious environmental pollution and energy shortage, the society has higher and higher requirements for the capacity and output power of storage devices, and lithium-ion batteries and capacitors have become current research hotspots. Lithium-ion batteries have the advantages of high energy density and low self-discharge rate, but the rate performance is not ideal, the power density is low, and the voltage range of lithium-ion batteries is between 3.0 and 4.1V. When it is higher than 4.1V, the positive electrode material of the battery And the electrolyte is unstable and easy to oxidize, and the surface of the negative electrode is easy to decompose lithium to form lithium...

Claims

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Application Information

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IPC IPC(8): H01M10/0583H01M10/0587H01M4/13H01M4/583H01M4/505H01M4/64H01G11/26H01G11/32
CPCH01G11/26H01G11/32H01M4/13H01M4/505H01M4/583H01M4/64H01M10/0583H01M10/0587Y02E60/10Y02E60/13Y02P70/50
Inventor 李朝
Owner 李朝
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