Lithium iron phosphate anode material and lithium iron phosphate secondary battery

A technology of lithium iron phosphate and positive electrode materials, which is applied in the field of lithium-ion batteries, can solve the problems of reducing the mechanical strength of aluminum foil, increasing the surface area, and limited effect, and achieve the effect of improving power and cycle life, with small growth rate and long cycle life

Active Publication Date: 2015-12-09
东莞市致格电池科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

At present, there are two methods that can partially solve this problem: one is to use carbon-coated aluminum foil, which can reduce the growth rate of battery internal resistance, but there are inherent defects of high process cost, limited applicability and the introduction of impurities, and only some products have been marketed. The second is to use etched aluminum foil to increase the surface area and enhance the adhesion, but this method has limited effects, and at the same time reduces the mechanical strength of the aluminum foil and introduces impurities, which brings difficulties in operation

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  • Lithium iron phosphate anode material and lithium iron phosphate secondary battery
  • Lithium iron phosphate anode material and lithium iron phosphate secondary battery

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0041] A lithium iron phosphate positive electrode material, the lithium iron phosphate positive electrode material includes the following raw materials in parts by weight:

[0042] 70 parts of lithium iron phosphate

[0043] Dispersed conductive agent 5 parts

[0044] Concentrated conductive agent 7.5 parts

[0045] 12 parts of synergistic conductive agent

[0046] 5 parts of binder.

[0047] 0.5 parts of other additives

[0048] The dispersed conductive agent is SuperC65 carbon black conductive agent.

[0049] The concentrated conductive agent is KS-6 conductive graphite, and the particle size D50 of the concentrated conductive agent is 3.5 μm.

[0050] The synergistic conductive agent is lithium cobaltate, and the particle size D50 of the synergistic conductive agent is 5.8 μm.

[0051] The adhesive is Solef-5130PVDF oily adhesive.

[0052] The other auxiliary agent is dispersant KD-1.

[0053] A lithium iron phosphate secondary battery, the positive electrode of th...

Embodiment 2

[0055] A lithium iron phosphate positive electrode material, the lithium iron phosphate positive electrode material includes the following raw materials in parts by weight:

[0056] 75 parts of lithium iron phosphate

[0057] Dispersed conductive agent 5 parts

[0058] Concentrated conductive agent 1 part

[0059] 13.5 parts of synergistic conductive agent

[0060] 5 parts binder

[0061] 0.5 parts of other additives.

[0062] The dispersed conductive agent is a SuperC45 carbon black conductive agent, and the particle size D50 of the dispersed conductive agent is 0.1 μm.

[0063] The concentrated conductive agent is KS-6L conductive graphite, and the particle size D50 of the concentrated conductive agent is 3.5 μm.

[0064] The synergistic conductive agent is lithium manganate or lithium nickelate, and the particle size D50 of the synergistic conductive agent is 10 μm.

[0065]The adhesive is PVDF oily adhesive, and the PVDF oily adhesive is Solef-6020PVDF oily adhesive,...

Embodiment 3

[0069] A lithium iron phosphate positive electrode material, the lithium iron phosphate positive electrode material includes the following raw materials in parts by weight:

[0070] Lithium iron phosphate 80 parts

[0071] 6 parts of dispersed conductive agent

[0072] Concentrated conductive agent 2 parts

[0073] 7.5 parts of synergistic conductive agent

[0074] 3.5 parts of binder

[0075] 1 part of other additives.

[0076] The dispersed conductive agent is SuperPLi carbon black conductive agent.

[0077] The concentrated conductive agent is GF-8 conductive graphite, and the particle size D50 of the concentrated conductive agent is 4 μm.

[0078] The synergistic conductive agent is lithium nickel cobalt manganese oxide, lithium nickel manganese oxide or LiNi 0.5 mn 1.5 o 4 , the particle size D50 of the synergistic conductive agent is 12 μm.

[0079] The adhesive is LA-132 water-based adhesive.

[0080] The other auxiliary agent is dispersant KD-1.

[0081] A l...

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Abstract

The invention relates to the technical field of lithium ion batteries, in particular to a lithium iron phosphate anode material and a lithium iron phosphate secondary battery. The lithium iron phosphate anode material is prepared from, by weight, 70-92 parts of lithium iron phosphate, 0-8 parts of scattered conductive agents, 0-8 parts of concentrated conductive agents, 0-20 parts of collaborative conductive agents, 1-6 parts of binding agents and 0-2 parts of other auxiliaries. The positive electrode of the lithium iron phosphate secondary battery is prepared from the lithium iron phosphate anode material. According to the lithium iron phosphate anode material, the scattered conductive agents, the concentrated conductive agents and the collaborative conductive agents are compounded and used in a multi-dimensional mode, a complete conductive and bonding network is built, the internal resistance of the lithium iron phosphate secondary battery can be basically not increased or slightly increased when large capacity discharge is conducted, and the power of the lithium iron phosphate secondary battery is increased, and the cycle life of the lithium iron phosphate secondary battery is prolonged. The internal resistance of the lithium iron phosphate secondary battery can be basically not increased or slightly increased when large capacity discharge is conducted, the power is high, and the cycle life is long.

Description

technical field [0001] The invention relates to the technical field of lithium ion batteries, in particular to a lithium iron phosphate cathode material and a lithium iron phosphate secondary battery. Background technique [0002] Lithium iron phosphate is limited by the shortcomings of small particles, large specific surface area and poor conductivity, resulting in uneven powder mixing of the lithium iron phosphate electrode body and poor interface adhesion between the powder coating layer and the conductive substrate, resulting in large discharge resistance and storage When the internal resistance increases rapidly, the lithium iron phosphate battery will eventually fail. [0003] The uneven powder mixing process of the electrode body has been mature and well applied. The problem of poor adhesion between the powder coating layer and the conductive substrate interface has always restricted the development of lithium iron phosphate batteries, especially lithium iron phosphat...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01M4/58H01M4/62H01M4/136H01M10/0525
CPCH01M4/136H01M4/5825H01M4/624H01M4/625H01M10/0525H01M2004/028H01M2220/20Y02E60/10
Inventor 陈湘彪杨和山
Owner 东莞市致格电池科技有限公司
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