CN101179122A - Polymer power cell anode-cathode film - Google Patents

Abstract

The invention relates to a polymer battery yin-yang film. The polymer battery yin-yang film uses active substance and adds conductive agent, pore-forming agent, solvent and adhesive into the substance to make slurry, then covers polyester film with slurry. The invention is characterized in that the adhesive is made from the mixture of polyvinylidene fluorine and hexafluoropropene with two different molecules. The invention takes two PVDF mixtures with different properties as the adhesive during membrane performance and controls slurry viscosity within certain section, thereby improving the problem slurry liquidity during membrane performance. When adopts direct membrane covering method, the process is simple, thickness deviation of yin-yang film is small, the production yield is high, the cost is low and makes it possible for large-scale commercialization of lithium ion battery.

Description

A kind of polymer power cell anode-cathode film

Technical field:

The present invention relates to a kind of polymer power cell anode-cathode film.

Technical background:

The whole world face day by day serious environmental problem and following oil equal energy source will exhausted situation under, seeking regenerative resource can become human urgent task.Lithium ion battery is as the green high-capacity battery of a new generation, have numerous advantages such as high voltage, high-energy-density, memory-less effect, pollution-free, light weight, be widely used in industries such as mobile communication, notebook computer, UPS, electric bicycle, electric automobile, be considered to be in 21st century national economy and the significant new high-tech product of people's lives.

And party thing lithium ion battery is because its excellent security energy, and high-energy-density gains great popularity.At present, the complicated process of preparation of polymer Li-ion battery anode and cathode film, and the film thickness deviation is big, and slurry is difficult for getting in the film-forming process, and rate of finished products is low, and waste of raw materials is bigger, system film cost height; The thickness deviation of film is big, influences the homogeneous performance of battery, has suppressed the business-like large-scale application of polymer Li-ion battery.

Summary of the invention:

The present invention has mainly solved the big problem of power cell anode-cathode film thickness deviation of present making, and the anode and cathode film of the copolymerization vinylidene fluoride-hexafluoropropylene of two kinds of different moleculars of a kind of employing as binding agent is provided, and has reduced the thickness difference of film.

The present invention has solved also that slurry is difficult for getting in the film-forming process, rate of finished products is low, waste of raw materials is bigger, the high problem of system film cost, the anode and cathode film of the copolymerization vinylidene fluoride-hexafluoropropylene of two kinds of different moleculars of a kind of employing as binding agent is provided, and the control slurry viscosity has effectively improved the flowability problem in the film-forming process in a certain interval, improve rate of finished products, reduced cost.

Another goal of the invention of the present invention has solved the problem of traditional anode and cathode film preparation complex process, copolymerization vinylidene fluoride-the hexafluoropropylene that adopts two kinds of different moleculars is as binding agent, can be directly with coating legal system film, technological operation is convenient, and the anode and cathode film thickness deviation of making is little, the rate of finished products height.

The technical solution adopted for the present invention to solve the technical problems is: a kind of polymer power cell anode-cathode film, it is to adopt active material, after adding conductive agent, pore creating material, solvent and binding agent are made slurry, be coated on the polyester film and make, it is characterized in that: binding agent is that the copolymerization vinylidene fluoride-hexafluoropropylene of two kinds of different moleculars mixes.

A kind of preferred version as such scheme, the polyvinylidene fluoride of described two kinds of different moleculars-hexafluoropropylene P (VDF-HFP)-A and P (VDF-HFP)-B, wherein the mean molecule quantity of P (VDF-HFP)-A is 700,000, proportion is 10%～90%, the mean molecule quantity of P (VDF-HFP)-B is 300,000, and proportion is 10%～90%.

As a kind of preferred version of such scheme, wherein the cathodic coating component is:

Active material: for one or more lithium oxides must make up, as lithium and cobalt oxides, lithium nickel oxide.Lithium-cobalt-nickel oxide, lithium manganese oxide, lithium iron phosphate oxide or their mixture, 60%～85%,

Conductive agent: be various conductive carbon blacks, as acetylene black or Super P, 1%～10%

Binding agent: be P (VDF-HFP), 2%～15%

Pore creating material: be dibutyl phthalate (DBP), ethyl carbonate etc., 8%～15%

As a kind of preferred version of such scheme, wherein the anode film component is:

Active material: be the combination of one or more carbonaceous materials, as natural or synthetic graphite, pitch coke or active carbon or their mixture, 60%～85%

Conductive agent: be various conductive carbon blacks, as acetylene black or Super P, 1%～10%

Binding agent: be P (VDF-HFP), 2%～15%

Pore creating material: be dibutyl phthalate (DBP), ethyl carbonate etc., 8%～15%

The present invention uses the PVDF of two kinds of different qualities to mix as the binding agent in the film-forming process, and the control slurry viscosity has effectively improved the flowability problem of slurry in the film-forming process in a certain interval; Adopt directly coating legal system film, technological operation is convenient, and the anode and cathode film thickness deviation of making is little, the rate of finished products height, and cost is low, the lithium ion battery large-scale commercial applications is changed into be possible.

Embodiment:

Embodiment 1:

The galvanic anode film

Native graphite 2250g

Super?P 60g

Dibutyl phthalate (DBP) 240g

Vinylidene fluoride-hexafluoropropylene-A 45g

Vinylidene fluoride-hexafluoropropylene-B 405g

Acetone 3900g

Production technology of the present invention is: with required anode material, conductive agent, binding agent adds in the mixer, fully mix, add solvent again, stir, make anode slurry, then the anode slurry of making is coated with on the polyester film with coating machine again,, promptly makes anode film 20 ℃～80 ℃ oven dry.

The cell cathode film

LiMn2O4 2250g

Super?P 150g

Dibutyl phthalate (DBP) 450g

Vinylidene fluoride-hexafluoropropylene-A 15g

Vinylidene fluoride-hexafluoropropylene-B 145g

Acetone 2200g

Production technology of the present invention is: with required cathode material, conductive agent, binding agent adds in the mixer, fully mix, add solvent again, stir, make cathode slurry, then the cathode slurry of making is coated with on the polyester film with coating machine again,, promptly makes cathodic coating 20 ℃～80 ℃ oven dry.

Embodiment 2:

The galvanic anode film

Native graphite 2400g

Super?P 30g

Dibutyl phthalate (DBP) 240g

Vinylidene fluoride-hexafluoropropylene-A 297g

Vinylidene fluoride-hexafluoropropylene-B 33g

Acetone 3200g

Production technology of the present invention is: with required anode material, conductive agent, binding agent adds in the mixer, fully mix, add solvent again, stir, make anode slurry, then the anode slurry of making is coated with on the polyester film with coating machine again,, promptly makes anode film 20 ℃～80 ℃ oven dry.

The cell cathode film

LiMn2O4 2400g

Super?P 120g

Dibutyl phthalate (DBP) 240g

Vinylidene fluoride-hexafluoropropylene-A 216g

Vinylidene fluoride-hexafluoropropylene-B 24g

Acetone 2700g

Production technology of the present invention is: with required cathode material, conductive agent, binding agent adds in the mixer, fully mix, add solvent again, stir, make cathode slurry, then the cathode slurry of making is coated with on the polyester film with coating machine again,, promptly makes cathodic coating 20 ℃～80 ℃ oven dry.

Claims (4)

1. polymer power cell anode-cathode film, it is to adopt active material, after adding conductive agent, pore creating material, solvent and binding agent are made slurry, be coated on the polyester film and make, it is characterized in that: binding agent is that the copolymerization vinylidene fluoride-hexafluoropropylene of two kinds of different moleculars mixes.

2. a kind of polymer power cell anode-cathode film according to claim 1, polyvinylidene fluoride-hexafluoropropylene P (the VDF-HFP)-A and P (the VDF-HFP)-B that it is characterized in that described two kinds of different moleculars, wherein the mean molecule quantity of P (VDF-HFP)-A is 700,000, proportion is 10%～90%, the mean molecule quantity of P (VDF-HFP)-B is 300,000, and proportion is 10%～90%.

3. a kind of polymer power cell anode-cathode film according to claim 1 is characterized in that wherein the cathodic coating component is:

Active material: for one or more lithium oxides must make up, as lithium and cobalt oxides, lithium nickel oxide.Lithium-cobalt-nickel oxide, lithium manganese oxide, lithium iron phosphate oxide or their mixture, 60%～85%,

Conductive agent: be various conductive carbon blacks, as acetylene black or Super P, 1%～10%

Binding agent: be P (VDF-HFP), 2%～15%

Pore creating material: be dibutyl phthalate (DBP), ethyl carbonate etc., 8%～15%

4. a kind of polymer power cell anode-cathode film according to claim 1 is characterized in that wherein the anode film component is:

Active material: be the combination of one or more carbonaceous materials, as natural or synthetic graphite, pitch coke or active carbon or their mixture, 60%～85%

Conductive agent: be various conductive carbon blacks, as acetylene black or Super P, 1%～10%

Binding agent: be P (VDF-HFP), 2%～15%

Pore creating material: be dibutyl phthalate (DBP), ethyl carbonate etc., 8%～15%