WO2014175011A1 - 多孔質ポリイミド膜の製造方法、多孔質ポリイミド膜、及びそれを用いたセパレータ - Google Patents
多孔質ポリイミド膜の製造方法、多孔質ポリイミド膜、及びそれを用いたセパレータ Download PDFInfo
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- WO2014175011A1 WO2014175011A1 PCT/JP2014/059513 JP2014059513W WO2014175011A1 WO 2014175011 A1 WO2014175011 A1 WO 2014175011A1 JP 2014059513 W JP2014059513 W JP 2014059513W WO 2014175011 A1 WO2014175011 A1 WO 2014175011A1
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- WIPO (PCT)
- Prior art keywords
- composite film
- polyimide
- varnish
- fine particles
- film
- Prior art date
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Definitions
- the present invention relates to a method for producing a porous polyimide film, a porous polyimide film, and a separator using the same.
- a chargeable / dischargeable lithium battery usually has a structure in which a space between a positive electrode (cathode) and a negative electrode (anode) is filled with an electrolyte, for example, a lithium salt such as LiPF 6 dissolved in a non-aqueous organic solvent.
- an electrolyte for example, a lithium salt such as LiPF 6 dissolved in a non-aqueous organic solvent.
- a lithium transition metal oxide is used for the positive electrode, and lithium or carbon (graphite) is mainly used for the negative electrode.
- the electrolyte has good ionic conductivity and negligible electrical conductivity. Lithium ions move from the positive electrode to the negative electrode during charging, and lithium ions move in the opposite direction during discharging.
- the positive and negative electrodes of the lithium battery are separated by a separator made of a porous polymer film to prevent direct electrical contact. Therefore, the separator for a secondary battery has a film thickness (thinness), mechanical strength, ionic conductivity (with electrolyte), electrical insulation, resistance to electrolyte, liquid retention with respect to electrolyte, and wetness. Various characteristics such as sex are required.
- a polyolefin microporous membrane separator such as polyethylene or polypropylene is generally used as a secondary battery separator having such properties. These microporous membranes have random pores and a porosity of about 35 to 40%, and are widely used as separators for lithium secondary batteries using carbon as a negative electrode.
- Non-Patent Document 1 lithium metal is deposited on the graphite negative electrode by repeated charge / discharge cycles. And it has been known that it is necessary to solve this problem because dendritic lithium grows when charging and discharging of the battery are repeated and eventually causes a short circuit of the battery. On the other hand, it is known that providing uniform holes in the separator regularly has an effect on improving the electric characteristics of the battery (Non-Patent Document 1).
- Patent Documents 2 and 3 attempts have been made to use polyimide having high heat resistance and high safety for the separator.
- the holes formed in the conventional polyimide film are not sufficient in terms of uniformity and density.
- the present invention has been made in view of the above circumstances, and an object of the present invention is to provide a method for producing a porous polyimide film having uniform and dense pores on the surface in contact with the negative electrode surface of a lithium ion battery.
- the inventors of the present invention formed a porous polyimide film having uniform and dense pores by forming two different layers composed of fine particles and polyamic acid or polyimide on a substrate and containing more fine particles in the substrate side layer. It was found that the battery performance can be improved by making this surface the negative electrode surface side of the lithium ion battery, and the present invention has been completed.
- the first aspect of the present invention is the first varnish containing (A1) polyamic acid or polyimide, and (B1) fine particles, wherein the volume ratio of (A1) to (B1) is 19:81 to 45:65.
- the second unfired composite is formed on the first unfired composite film by using a second varnish having a volume ratio of 20:80 to 50:50 and a fine particle content ratio lower than that of the first varnish.
- a second unfired composite film forming step for forming a film and a firing step for firing the unfired composite film comprising the first unfired composite film and the second unfired composite film to obtain a polyimide-fine particle composite film
- a fine particle removal process for removing fine particles from the polyimide-fine particle composite film.
- the second aspect of the present invention is a porous polyimide film produced by the method of the first aspect of the present invention.
- an electrolyte and a separator according to the third aspect are disposed between a negative electrode and a positive electrode, and the surface of the separator that is on the substrate side in the firing step according to the first aspect is It is a secondary battery arranged on the negative electrode side.
- the fifth aspect of the present invention is the first varnish containing (A1) polyamic acid or polyimide and (B1) fine particles, wherein the volume ratio of (A1) to (B1) is 19:81 to 45:65.
- the second unfired composite is formed on the first unfired composite film by using a second varnish having a volume ratio of 20:80 to 50:50 and a fine particle content ratio lower than that of the first varnish.
- a second unfired composite film forming step for forming a film.
- the sixth aspect of the present invention is a method for producing a polyimide-fine particle composite film having a firing step of firing the unfired composite film produced by the method of the fourth aspect of the present invention.
- the present invention it is possible to manufacture a porous polyimide film having a large number of uniform and dense pores on the surface in contact with the negative electrode surface of a lithium ion battery, and using this as a battery separator facilitates the movement of lithium ions. Therefore, the electric characteristics of the battery can be improved.
- varnish containing polyamic acid or polyimide, fine particles and an organic solvent are prepared.
- Any varnish is prepared by producing a polyamic acid or polyimide solution in which predetermined fine particles are dispersed.
- the above two kinds of varnish include (A1) polyamic acid or polyimide, and (B1) fine particles, and are contained so that the volume ratio of (A1) to (B1) is 19:81 to 45:65.
- the second varnish needs to have a fine particle content ratio lower than that of the first varnish.
- the fine particles are not particularly limited as long as they are insoluble in the organic solvent used for the varnish and can be selectively removed after film formation.
- the volume ratio of (A1) and (B1) in the first varnish is the volume ratio obtained by multiplying the mass of (A1) polyamic acid or polyimide by its specific gravity and the volume ratio of (B1) fine particles.
- the volume ratio of (A2) to (B2) in the second varnish is the same as this.
- polyamic acid As the polyamic acid used in the present invention, those obtained by polymerizing any tetracarboxylic dianhydride and diamine can be used without any particular limitation.
- the amount of tetracarboxylic dianhydride and diamine used is not particularly limited, but 0.50 to 1.50 mol of diamine is preferably used relative to 1 mol of tetracarboxylic dianhydride, and 0.60 to 1. It is more preferable to use 30 mol, and it is particularly preferable to use 0.70 to 1.20 mol.
- the tetracarboxylic dianhydride can be appropriately selected from tetracarboxylic dianhydrides conventionally used as raw materials for polyamic acid synthesis.
- the tetracarboxylic dianhydride may be an aromatic tetracarboxylic dianhydride or an aliphatic tetracarboxylic dianhydride. From the viewpoint of the heat resistance of the resulting polyimide resin, the aromatic tetracarboxylic dianhydride may be used. Preference is given to using carboxylic dianhydrides. Tetracarboxylic dianhydride may be used in combination of two or more.
- aromatic tetracarboxylic dianhydride examples include pyromellitic dianhydride, 1,1-bis (2,3-dicarboxyphenyl) ethane dianhydride, bis (2,3-dicarboxy Phenyl) methane dianhydride, bis (3,4-dicarboxyphenyl) methane dianhydride, 3,3 ′, 4,4′-biphenyltetracarboxylic dianhydride, 2,3,3 ′, 4′- Biphenyltetracarboxylic dianhydride, 2,2,6,6-biphenyltetracarboxylic dianhydride, 2,2-bis (3,4-dicarboxyphenyl) propane dianhydride, 2,2-bis (2 , 3-dicarboxyphenyl) propane dianhydride, 2,2-bis (3,4-dicarboxyphenyl) -1,1,1,3,3,3-hexafluoropropane dianhydride, 2,2
- Examples of the aliphatic tetracarboxylic dianhydride include ethylene tetracarboxylic dianhydride, butane tetracarboxylic dianhydride, cyclopentane tetracarboxylic dianhydride, cyclohexane tetracarboxylic dianhydride, 1, Examples include 2,4,5-cyclohexanetetracarboxylic dianhydride, 1,2,3,4-cyclohexanetetracarboxylic dianhydride, and the like. Among these, 3,3 ′, 4,4′-biphenyltetracarboxylic dianhydride and pyromellitic dianhydride are preferable from the viewpoints of price and availability. These tetracarboxylic dianhydrides may be used alone or in combination of two or more.
- the diamine can be appropriately selected from diamines conventionally used as a raw material for synthesizing polyamic acid.
- the diamine may be an aromatic diamine or an aliphatic diamine, but an aromatic diamine is preferred from the viewpoint of the heat resistance of the resulting polyimide resin. These diamines may be used in combination of two or more.
- aromatic diamines include diamino compounds in which one or about 2 to 10 phenyl groups are bonded. Specifically, phenylenediamine and derivatives thereof, diaminobiphenyl compounds and derivatives thereof, diaminodiphenyl compounds and derivatives thereof, diaminotriphenyl compounds and derivatives thereof, diaminonaphthalene and derivatives thereof, aminophenylaminoindane and derivatives thereof, diaminotetraphenyl Compounds and derivatives thereof, diaminohexaphenyl compounds and derivatives thereof, and cardo-type fluorenediamine derivatives.
- Phenylenediamine is m-phenylenediamine, p-phenylenediamine, etc., and phenylenediamine derivatives include diamines to which alkyl groups such as methyl group and ethyl group are bonded, such as 2,4-diaminotoluene, 2,4-triphenylene. Diamines and the like.
- the diaminobiphenyl compound is a compound in which two aminophenyl groups are bonded to each other.
- the diaminobiphenyl compound is a compound in which two aminophenyl groups are bonded to each other.
- the diaminodiphenyl compound is a compound in which two aminophenyl groups are bonded to each other via other groups.
- the bond is an ether bond, a sulfonyl bond, a thioether bond, a bond by alkylene or a derivative group thereof, an imino bond, an azo bond, a phosphine oxide bond, an amide bond, a ureylene bond, or the like.
- the alkylene bond has about 1 to 6 carbon atoms, and the derivative group has one or more hydrogen atoms in the alkylene group substituted with halogen atoms or the like.
- diaminodiphenyl compounds include 3,3′-diaminodiphenyl ether, 3,4′-diaminodiphenyl ether, 4,4′-diaminodiphenyl ether, 3,3′-diaminodiphenyl sulfone, 3,4′-diaminodiphenyl sulfone, 4,4'-diaminodiphenylsulfone, 3,3'-diaminodiphenylmethane, 3,4'-diaminodiphenylmethane, 4,4'-diaminodiphenylmethane, 4,4'-diaminodiphenyl sulfide, 3,3'-diaminodiphenyl ketone 3,4′-diaminodiphenyl ketone, 2,2-bis (p-aminophenyl) propane, 2,2′-bis (p-aminophenyl) hexafluor
- p-phenylenediamine p-phenylenediamine, m-phenylenediamine, 2,4-diaminotoluene, and 4,4'-diaminodiphenyl ether are preferable from the viewpoint of price and availability.
- the diaminotriphenyl compound is one in which two aminophenyl groups and one phenylene group are bonded via another group, and the other groups are the same as those of the diaminodiphenyl compound.
- Examples of diaminotriphenyl compounds include 1,3-bis (m-aminophenoxy) benzene, 1,3-bis (p-aminophenoxy) benzene, 1,4-bis (p-aminophenoxy) benzene, and the like. be able to.
- diaminonaphthalene examples include 1,5-diaminonaphthalene and 2,6-diaminonaphthalene.
- aminophenylaminoindane examples include 5 or 6-amino-1- (p-aminophenyl) -1,3,3-trimethylindane.
- diaminotetraphenyl compounds examples include 4,4′-bis (p-aminophenoxy) biphenyl, 2,2′-bis [p- (p′-aminophenoxy) phenyl] propane, 2,2′-bis [ and p- (p′-aminophenoxy) biphenyl] propane, 2,2′-bis [p- (m-aminophenoxy) phenyl] benzophenone, and the like.
- cardo-type fluorenediamine derivatives include 9,9-bisaniline fluorene.
- the aliphatic diamine preferably has about 2 to 15 carbon atoms, and specific examples include pentamethylene diamine, hexamethylene diamine, and heptamethylene diamine.
- a compound in which the hydrogen atom of these diamines is substituted with at least one substituent selected from the group such as a halogen atom, a methyl group, a methoxy group, a cyano group, and a phenyl group may be used.
- the means for producing the polyamic acid used in the present invention is not particularly limited, and for example, a known method such as a method of reacting an acid and a diamine component in an organic solvent can be used.
- the reaction between tetracarboxylic dianhydride and diamine is usually carried out in an organic solvent.
- the organic solvent used for the reaction of the tetracarboxylic dianhydride and the diamine is particularly capable of dissolving the tetracarboxylic dianhydride and the diamine and not reacting with the tetracarboxylic dianhydride and the diamine. It is not limited. An organic solvent can be used individually or in mixture of 2 or more types.
- organic solvents used in the reaction of tetracarboxylic dianhydride with diamine include N-methyl-2-pyrrolidone, N, N-dimethylacetamide, N, N-diethylacetamide, N, N-dimethylformamide, N Nitrogen-containing polar solvents such as N, diethylformamide, N-methylcaprolactam, N, N, N ′, N′-tetramethylurea; ⁇ -propiolactone, ⁇ -butyrolactone, ⁇ -valerolactone, ⁇ -valerolactone Lactone polar solvents such as ⁇ -caprolactone and ⁇ -caprolactone; dimethyl sulfoxide; acetonitrile; fatty acid esters such as ethyl lactate and butyl lactate; diethylene glycol dimethyl ether, diethylene glycol diethyl ether, dioxane, tetrahydrofuran, methyl cellosolve acetate,
- N-methyl-2-pyrrolidone N, N-dimethylacetamide, N, N-diethylacetamide, N, N-dimethylformamide, N, N- Nitrogen-containing polar solvents such as diethylformamide, N-methylcaprolactam, N, N, N ′, N′-tetramethylurea are preferred.
- the polymerization temperature is generally ⁇ 10 to 120 ° C., preferably 5 to 30 ° C.
- the polymerization time varies depending on the raw material composition used, but is usually 3 to 24 Hr (hour).
- the intrinsic viscosity of the polyamic acid organic solvent solution obtained under such conditions is preferably in the range of 1000 to 100,000 cP (centipoise), and more preferably in the range of 5,000 to 70,000 cP.
- the polyimide used in the present invention is not limited to its structure and molecular weight as long as it is a soluble polyimide that can be dissolved in the organic solvent used in the varnish of the present invention.
- a polyimide you may have a functional group which accelerates
- a monomer to introduce a flexible bending structure into the main chain in order to obtain a polyimide soluble in an organic solvent for example, ethylenediamine, hexamethylenediamine, 1,4-diaminocyclohexane, 1,3-diaminocyclohexane, Aliphatic diamines such as 4,4′-diaminodicyclohexylmethane; 2-methyl-1,4-phenylenediamine, o-tolidine, m-tolidine, 3,3′-dimethoxybenzidine, 4,4′-diaminobenzanilide, etc.
- an organic solvent for example, ethylenediamine, hexamethylenediamine, 1,4-diaminocyclohexane, 1,3-diaminocyclohexane, Aliphatic diamines such as 4,4′-diaminodicyclohexylmethane; 2-methyl-1,4-phenylenediamine
- Aromatic diamines such as polyoxyethylene diamine, polyoxypropylene diamine and polyoxybutylene diamine; polysiloxane diamines; 2,3,3 ′, 4′-oxydiphthalic anhydride, 3,4,3 ′, 4′-oxydiphthalic anhydride, 2,2-bis (4- Hydroxyphenyl) propane dibenzoate-3,3 ', use of such 4,4'-tetracarboxylic dianhydride is valid.
- a monomer having a functional group that improves the solubility in an organic solvent for example, 2,2′-bis (trifluoromethyl) -4,4′-diaminobiphenyl, 2-trifluoromethyl-1,4 It is also effective to use a fluorinated diamine such as phenylenediamine.
- a monomer having a functional group that improves the solubility in an organic solvent for example, 2,2′-bis (trifluoromethyl) -4,4′-diaminobiphenyl, 2-trifluoromethyl-1,4
- a fluorinated diamine such as phenylenediamine.
- the same monomers as those described in the column for the polyamic acid can be used in combination as long as the solubility is not inhibited.
- polyimide which can be melt
- well-known methods such as the method of making a polyamic acid chemically imidize or heat-imidize and dissolve in an organic solvent, are used. be able to.
- examples of such polyimide include aliphatic polyimide (total aliphatic polyimide), aromatic polyimide and the like, and aromatic polyimide is preferable.
- the aromatic polyimide is obtained by thermally or chemically obtaining a polyamic acid having a repeating unit represented by the formula (1) by a ring-closing reaction or by dissolving a polyimide having a repeating unit represented by the formula (2) in a solvent. Good.
- Ar represents an aryl group.
- the varnish of the present invention is prepared by mixing an organic solvent in which fine particles are dispersed in advance with polyamic acid or polyimide in an arbitrary ratio, or polymerizing tetracarboxylic dianhydride and diamine in an organic solvent in which fine particles are dispersed in advance. Or can be produced by further imidizing to a polyimide, and finally the viscosity is preferably 300 to 1500 cP, more preferably 400 to 700 cP. If the viscosity of the varnish is within this range, it is possible to form a film uniformly.
- the fine particle / polyimide ratio is 2 to 6 (mass ratio) when the fine particle material is an inorganic material described later.
- Fine particles and polyamic acid or polyimide may be mixed so that More preferably, it is 3 to 5 (mass ratio).
- the fine particles and the polyamic acid or the polyimide may be mixed so that the fine particle / polyimide ratio is 1 to 3.5 (mass ratio). More preferably, the ratio is 1.2 to 3 (mass ratio).
- the volume ratio of fine particles / polyimide is 1.5 to 4.5 when a polyimide-fine particle composite film is formed. More preferably, it is 1.8 to 3 (volume ratio).
- the fine particle / polyimide mass ratio or volume ratio is equal to or higher than the lower limit when the polyimide-fine particle composite film is formed, pores having an appropriate density as a separator can be obtained. It is possible to form a film stably without causing problems such as cracks in the film.
- the material of the fine particles used in the present invention is not particularly limited as long as it is insoluble in the organic solvent used for the varnish and can be removed from the polyimide film later.
- inorganic materials include metal oxides such as silica (silicon dioxide), titanium oxide, and alumina (Al 2 O 3 ), and organic materials include high molecular weight olefins (polypropylene, polyethylene, etc.), polystyrene, epoxy resins, and cellulose.
- Organic polymer fine particles such as polyvinyl alcohol, polyvinyl butyral, polyester, and polyether.
- colloidal silica especially monodispersed spherical silica particles as the fine particles because uniform pores can be formed.
- the fine particles used in the present invention preferably have a high sphericity and a small particle size distribution index.
- the fine particles having these conditions are excellent in dispersibility in the varnish and can be used in a state where they do not aggregate with each other.
- As the particle diameter (average diameter) of the fine particles used for example, those having a particle diameter of 100 to 2000 nm can be used. By satisfying these conditions, the pore diameter of the porous film obtained by removing the fine particles can be made uniform, which is preferable because the electric field applied to the separator can be made uniform.
- the fine particles (B1) used for the first varnish and the fine particles (B2) used for the second varnish may be the same or different from each other.
- the fine particles of (B1) preferably have a smaller or the same particle size distribution index as the fine particles of (B2).
- the fine particles of (B1) preferably have a smaller particle size (average diameter) than the fine particles of (B2), and in particular, (B1) is 100 to 1000 nm (more preferably 100 to 600 nm), (B2 ) Is preferably 500 to 2000 nm (more preferably 700 to 2000 nm).
- (B2) is 100 to 1000 nm (more preferably 100 to 600 nm)
- (B2 ) Is preferably 500 to 2000 nm (more preferably 700 to 2000 nm).
- the first varnish used in the present invention has a volume ratio of (A1) polyamic acid or polyimide and (B1) fine particles of 19:81 to 45:65. If the fine particle volume is 65 or more when the total volume is 100, the particles are uniformly dispersed. If the particle volume is within 81, the particles are dispersed without agglomeration. It can be formed uniformly. Further, when the volume ratio of the fine particles is within this range, it is possible to ensure the releasability after the film formation even when the release layer is not provided in advance on the substrate used for forming the unfired composite film. it can.
- the volume ratio of (A2) polyamic acid or polyimide and (B2) fine particles is 20:80 to 50:50. If the fine particle volume is 50 or more when the total volume is 100, the single particles are uniformly dispersed, and if they are within 80, the particles do not aggregate with each other, and cracks and the like may occur on the surface. Therefore, a porous polyimide film having good electrical characteristics can be formed stably.
- the second varnish having a lower fine particle content than the first varnish is used.
- the strength and flexibility of the unfired composite film, the polyimide-fine particle composite film, and the porous polyimide film can be ensured even when the fine particles are highly filled in the polyamic acid or polyimide. .
- the film manufacturing cost can be reduced.
- a dispersant may be further added together with the fine particles for the purpose of uniformly dispersing the fine particles in the varnish.
- the dispersant By adding the dispersant, the polyamic acid or polyimide and the fine particles can be mixed more uniformly, and furthermore, the fine particles in the molded precursor film can be uniformly distributed. As a result, it is possible to provide a dense opening on the surface of the finally obtained porous polyimide and to allow the front and back surfaces to communicate efficiently, thereby improving the air permeability of the film.
- the dispersant used in the present invention is not particularly limited, and known ones can be used.
- Anionic surfactants such as nate salt, isopropyl phosphate, polyoxyethylene alkyl ether phosphate salt, polyoxyethylene allyl phenyl ether phosphate salt; oleylamine acetate, lauryl pyridinium chloride, cetyl pyridinium chloride, lauryl trimethyl ammonium chloride, stearyl trimethyl ammonium chloride , Behenyltrimethylam
- the first varnish is applied as it is on a substrate such as a glass substrate or a release layer is provided in advance, and the pressure is 0 to 50 ° C. under normal pressure or vacuum, preferably 10 to 30 at normal pressure.
- the first green composite film is formed by drying at a temperature of 0 ° C. The process so far is referred to as a first unfired composite film forming process.
- the second varnish is applied onto the formed first unfired composite film, and similarly dried at 0 to 50 ° C., preferably 10 to 30 ° C. under normal pressure or vacuum. .
- This process is referred to as a second unfired composite film forming process.
- the unfired composite film composed of the first unfired composite film and the second unfired composite film is fired to enter a firing step for obtaining a polyimide-fine particle composite film. It may be fired, or the unfired composite film may be peeled from the substrate before entering the firing step.
- a substrate provided with a release layer in advance can be used in order to further enhance the peelability of the film.
- a release layer is provided on the substrate in advance, a release agent is applied on the substrate and dried or baked before application of the varnish.
- known release agents such as alkyl phosphate ammonium salt, fluorine-based or silicone can be used without particular limitation.
- an organic solvent for the purpose of removing the release agent, it is preferable to wash the unfired composite film peeled from the substrate using an organic solvent.
- the organic solvent to be used can be used without particular limitation as long as it dissolves the release agent and does not dissolve or swell the unfired composite film.
- alcohols such as methyl alcohol, ethyl alcohol, and propyl alcohol can be preferably used.
- a cleaning method a known method such as a method of immersing a film in a cleaning solution and taking it out or a method of shower cleaning can be selected. It is preferable to perform drying after washing. At that time, a method may be employed in which the end of the unfired composite film is fixed to a SUS mold or the like to prevent deformation.
- the above-mentioned release layer forming step and the unfired composite film cleaning step can be omitted.
- the unfired composite film is subjected to post-treatment (baking) by heating to obtain a composite film (polyimide-fine particle composite film) composed of polyimide and fine particles.
- the firing temperature at that time varies depending on the structure of the unfired composite film and the presence or absence of a condensing agent, but is preferably 120 to 375 ° C., more preferably 150 to 350 ° C. Further, when an organic material is used for the fine particles, it is necessary to set the temperature to be lower than the thermal decomposition temperature. In the firing step, it is preferable to complete imidization.
- the firing conditions are, for example, a method in which the temperature is raised from room temperature to 375 ° C. in 3 hours and then held at 375 ° C. for 20 minutes, or the temperature is gradually raised from room temperature to 375 ° C. in increments of 50 ° C. (holding 20 minutes for each step) And a stepwise drying-thermal imidization method such as a final holding at 375 ° C. for 20 minutes can also be used.
- a method of fixing the end of the unfired composite film to a SUS formwork or the like to prevent deformation can be employed.
- the film thickness of the completed polyimide-fine particle composite film can be obtained by measuring and averaging the thickness of a plurality of locations with a micrometer, for example.
- the average film thickness is preferably different depending on the use of the polyimide-fine particle composite film or the porous polyimide film. More preferably it is.
- the polyimide-fine particle composite film can be treated with a low concentration of hydrogen fluoride water to dissolve and remove the silica.
- An organic material can also be selected as the material of the fine particles. Any organic material can be used without particular limitation as long as it decomposes at a lower temperature than polyimide.
- resin fine particles made of a linear polymer or a known depolymerizable polymer can be mentioned.
- a normal linear polymer is a polymer in which a polymer molecular chain is randomly cleaved during thermal decomposition
- a depolymerizable polymer is a polymer in which the polymer is decomposed into monomers during thermal decomposition. Any of them disappears from the polyimide film by decomposing into low molecular weight substances or CO 2 .
- the decomposition temperature of the resin fine particles used is preferably 200 to 320 ° C., more preferably 230 to 260 ° C.
- the decomposition temperature is 200 ° C. or higher, film formation can be performed even when a high-boiling solvent is used for the varnish, and the range of selection of the baking conditions for polyimide is widened. If the decomposition temperature is less than 320 ° C., only the resin fine particles can be lost without causing thermal damage to the polyimide.
- the total film thickness of the porous polyimide film of the present invention is not particularly limited, but is preferably 5 ⁇ m or more and 500 ⁇ m or less, more preferably 10 ⁇ m or more and 100 ⁇ m or less, and particularly preferably 10 ⁇ m or more and 30 ⁇ m or less. .
- the film thickness can be obtained by measuring and averaging the thicknesses of a plurality of locations with a micrometer, for example, as in the measurement of the polyimide-fine particle composite film.
- the preferred thickness of the layer made from the first varnish is 0.3 ⁇ m or more and 5 ⁇ m or less, preferably 0.4 ⁇ m or more and 4 ⁇ m or less, more preferably 0.5 ⁇ m or more and 3 ⁇ m or less.
- a preferable thickness of the layer formed from 4.3 to 500 ⁇ m is preferably 4.5 to 99.7 ⁇ m, and more preferably 5 to 29.7 ⁇ m.
- the thickness of each layered region can be calculated by observing a plurality of locations in the first and second layered regions in the cross section of the porous film with a scanning electron microscope (SEM) or the like and averaging them.
- SEM scanning electron microscope
- the porous polyimide membrane produced by the production method of the present invention can be used as a separator for a lithium ion battery, a fuel cell electrolyte membrane, a gas or liquid separation membrane, or a low dielectric constant material.
- the porous polyimide membrane of the present invention can be used as a separator for secondary batteries such as nickel cadmium, nickel metal hydride batteries, lithium ion secondary batteries, etc., but is used as a porous separator for lithium ion secondary batteries. It is particularly preferred.
- battery performance can be improved by setting the substrate side surface to the negative electrode surface side of the lithium ion battery during film formation.
- the electrolytic solution and the separator of the third aspect are disposed between the negative electrode and the positive electrode, and the surface of the separator that was on the substrate side in the firing step of the first aspect is the negative electrode It is arranged on the side.
- the type and configuration of the secondary battery of the present invention are not limited at all.
- a battery element in which a positive electrode, a separator, and a negative electrode are sequentially laminated so that the above conditions are satisfied is impregnated with an electrolyte solution. If this structure is sealed in an exterior, a nickel cadmium battery, a nickel metal hydride battery, a lithium ion battery It can use for well-known secondary batteries, such as a secondary battery, without being specifically limited.
- the negative electrode of the secondary battery in the present invention can have a structure in which a negative electrode mixture comprising a negative electrode active material, a conductive additive and a binder is formed on a current collector.
- a negative electrode active material cadmium hydroxide can be used in the case of a nickel cadmium battery, and a hydrogen storage alloy can be used in the case of a nickel metal hydride battery.
- a material capable of electrochemically doping lithium can be employed. Examples of such an active material include a carbon material, silicon, aluminum, tin, and a wood alloy.
- Examples of the conductive additive constituting the negative electrode include carbon materials such as acetylene black and ketjen black.
- the binder is made of an organic polymer, and examples thereof include polyvinylidene fluoride and carboxymethyl cellulose.
- copper foil, stainless steel foil, nickel foil, or the like can be used.
- the positive electrode can have a structure in which a positive electrode mixture comprising a positive electrode active material, a conductive additive and a binder is formed on a current collector.
- a positive electrode active material nickel hydroxide can be used in the case of a nickel cadmium battery, and nickel hydroxide or nickel oxyhydroxide can be used in the case of a nickel hydrogen battery.
- examples of the positive electrode active material include lithium-containing transition metal oxides.
- the conductive assistant include carbon materials such as acetylene black and ketjen black.
- the binder is made of an organic polymer, and examples thereof include polyvinylidene fluoride.
- aluminum foil, stainless steel foil, titanium foil, or the like can be used.
- the electrolytic solution for example, in the case of a nickel cadmium battery or a nickel metal hydride battery, an aqueous potassium hydroxide solution is used.
- the electrolyte solution of the lithium ion secondary battery has a structure in which a lithium salt is dissolved in a non-aqueous solvent.
- the lithium salt include LiPF 6 , LiBF 4 , LiClO 4 and the like.
- the non-aqueous solvent include propylene carbonate, ethylene carbonate, dimethyl carbonate, diethyl carbonate, ethyl methyl carbonate, ⁇ -butyrolactone, and vinylene carbonate. These may be used alone or in combination.
- Examples of exterior materials include metal cans or aluminum laminate packs.
- the battery has a square shape, a cylindrical shape, a coin shape, and the like, but the separator of the present invention can be suitably applied to any shape.
- the pore diameter of the separator facing the negative electrode side of the battery is small, dense, and has no variation in size because there is no concentration of charges. Therefore, when the surface of the porous polyimide film that was on the substrate side in the firing step is arranged on the negative electrode side of the secondary battery, compared to the case where it is not, the surface from the negative electrode side with repeated use of the secondary battery As a result of suppressing the growth of the metal dendrite, the cycle characteristics of the secondary battery are improved, which is preferable.
- the release agent was removed with ethanol, and heat treatment was performed at 320 ° C. for 15 minutes to complete imidization.
- Example 1 A porous polyimide film was formed in the same manner as in Example 1 except that only the second varnish of Example 1 was used and film formation was performed once.
- ⁇ Comparative example 2> A commercially available separator (Celgard 2000) was used.
- ⁇ Comparative Example 3> A porous polyimide film was formed in the same manner as in Example 1 except that only the first varnish of Example 1 was used and the film was formed once. The obtained porous polyimide film was very brittle and had poor handling properties.
- Charging / discharging characteristics were as follows. Each of the evaluation coin batteries was charged in a thermostat at a current density of 2,2 mAh (1 C) up to 4.1 V (CC-CV operation), and then discharged to 2.5 V. Up to 2,2 mAh (1C), 3C or 5C current density (CC operation). Table 1 shows the results. The values in Table 1 () are capacity retention ratios (%) when the 1 C capacity is 100% of the electrostatic capacity at the rate 3 C or 5 C.
- Example 5 A porous polyimide film was prepared in the same manner as in Example 1 except that the volume ratio of the polyamic acid and fine particles of the first varnish was 18:82 (mass ratio was 12:88). The surface of the side using the first varnish and the side in contact with the negative electrode was observed with an SEM. In FIG. 2, the surface state of the comparative example 5 is shown.
- Example 2 The volume ratio of the polyamic acid and fine particles of the first varnish is adjusted to 34:66 (mass ratio is 25:75), and the volume ratio of the polyamic acid and fine particles of the second varnish is 40:60 (mass).
- a porous polyimide film was prepared in the same manner as in Example 1 except that the ratio was 30:70). The surface of the side using the first varnish and the side in contact with the negative electrode was observed with an SEM. In FIG. 3, the surface state of Example 2 is shown.
- the button battery using Example 1 of the present invention was found to have a high rate, a high capacity retention rate, and excellent electrical characteristics as compared with the comparative example. This is considered to be because the anode surface side surface can have more pores by forming two layers, and Li ion mobility is improved as compared with the comparative example.
- Example 2 When comparing the surface states of Examples 1 and 2 and Comparative Example 4, it was found that when the volume ratio of the fine particles was 82, agglomerated particles started to form and large holes were formed. In Example 2, the volume ratio of the fine particles in the first varnish was smaller than that in Example 1, but it was confirmed that the pores were formed uniformly. Considering that it is said that providing uniform holes regularly has an effect on improving the electrical characteristics of the battery (see Non-Patent Document 1) and the result of Example 1 above, By using the separator of the present invention manufactured with a volume ratio of varnish polyamic acid and fine particles in the range of 19:81 to 45:65, the pore size on the polyimide film surface can be formed uniformly and densely. It is considered that the electrical characteristics of the lithium ion battery can be improved.
- Example 3 Porous polyimide was formed in the same manner as in Example 1 except that the film thickness was about 1 ⁇ m when the first varnish was formed, and the total thickness of the unfired composite film was about 20 ⁇ m.
- Example 4 A porous polyimide was formed in the same manner as in Example 3 except that 10 parts by weight of a dispersant was used with respect to 100 parts by weight of silica when preparing the varnish.
- porous polyimide film of Comparative Example 6 having a single layer structure showed a small value of air permeability, but the film strength was lowered and handling became difficult.
- the porous polyimide film of Comparative Example 7 having a single layer structure has improved film strength and good handleability, but has a low air permeability value.
- the porous polyimide membranes of Examples 3 and 4 set so as to satisfy the conditions of the present invention were improved in the strength of the membrane and maintained in the handleability while maintaining the air permeability. . Further, comparing Example 3 in which the dispersant was not used with Example 4 in which the dispersant was used, the air permeability of Example 4 using the dispersant was smaller and superior.
- Respective batteries are referred to as Examples B1 and B2 and Comparative Examples B1 and B2.
- Charging / discharging characteristics were as follows. Each of the evaluation coin batteries was charged in a thermostat at a current density of 2.2 mAh (1 C) up to 4.1 V (CC-CV operation), and then discharged to 2.5 V. Up to 2.2 mAh (1 C) and 3 C current density (CC operation). Table 3 shows the results. The values in Table 1 () are capacity retention rates (%) when the 1 C capacity is 100% of the capacitance at rate 3 C.
- a single-layer laminated cell battery was obtained in the same manner as described above. This is designated as Comparative Examples B3 and B4.
- the PE separator used has a film thickness of 20 ⁇ m, an air permeability of 270 seconds, and a porosity of 42%.
- the cellulose separator has a film thickness of 25 ⁇ m, an air permeability of 135 seconds, and a porosity of 70%. there were.
- Heat resistance evaluation was performed according to the following criteria using a soldering iron of about 250 ° C. ⁇ : Even if the tip of the soldering iron was applied to the center of the film, it was not broken, but it was not broken. ⁇ : When the tip of the soldering iron was applied to the center of the film, it penetrated.
- the capacity retention rate and heat resistance are better than those of the PE separator, and the cellulose separator.
- the capacity retention rate was equal to or greater than that of, and it was confirmed that there was an advantage in the crush test.
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Abstract
Description
本発明では、ポリアミド酸又はポリイミド、微粒子及び有機溶剤を含有するワニスを2種準備する。いずれのワニスの準備も、所定の微粒子を分散したポリアミド酸又はポリイミド溶液を製造することにより行う。
本発明で用いるポリアミド酸は、任意のテトラカルボン酸二無水物とジアミンを重合して得られるものが、特に限定されることなく使用できる。テトラカルボン酸二無水物及びジアミンの使用量は特に限定されないが、テトラカルボン酸二無水物1モルに対して、ジアミンを0.50~1.50モル用いるのが好ましく、0.60~1.30モル用いるのがより好ましく、0.70~1.20モル用いるのが特に好ましい。
本発明に用いるポリイミドは、本発明のワニスに使用する有機溶剤に溶解可能な可溶性ポリイミドなら、その構造や分子量に限定されることなく、公知のものが使用できる。ポリイミドについて、側鎖にカルボキシ基等の縮合可能な官能基又は焼成時に架橋反応等を促進させる官能基を有していてもよい。
本発明で用いられる微粒子の材質は、ワニスに使用する有機溶剤に不溶で、後にポリイミド膜から除去可能なものであれば、特に限定されること無く公知のものが採用可能である。例えば、無機材料としては、シリカ(二酸化珪素)、酸化チタン、アルミナ(Al2O3)等の金属酸化物、有機材料としては、高分子量オレフィン(ポリプロピレン,ポリエチレン等)、ポリスチレン、エポキシ樹脂、セルロース、ポリビニルアルコール、ポリビニルブチラール、ポリエステル、ポリエーテル等の有機高分子微粒子が挙げられる。
以下、本発明における未焼成複合膜の成膜方法について説明する。まず、ガラス基板等の基板上にそのまま、又は、予め離型層を設けた上に、上記第一のワニスを塗布し、常圧又は真空下で0~50℃、好ましくは常圧10~30℃で乾燥して第一未焼成複合膜の形成を行う。ここまでの工程を、第一未焼成複合膜成膜工程という。
上記未焼成複合膜に加熱による後処理(焼成)を行ってポリイミドと微粒子とからなる複合膜(ポリイミド-微粒子複合膜)とする。その際の焼成温度は、未焼成複合膜の構造や縮合剤の有無によっても異なるが、120~375℃であることが好ましく、更に好ましくは150~350℃である。また、微粒子に、有機材料を使用するときは、その熱分解温度よりも低い温度に設定する必要がある。焼成工程においてはイミド化を完結させることが好ましい。
ポリイミド-微粒子複合膜から、微粒子を適切な方法を選択して除去することにより、多孔質ポリイミド膜を再現性よく製造することができる。
本発明の製造方法で作製した多孔質ポリイミド膜は、リチウムイオン電池のセパレータや燃料電池電解質膜、ガス又は液体の分離用膜、低誘電率材料として使用することが可能である。本発明の多孔質ポリイミド膜は、ニッケルカドミウム、ニッケル水素電池、リチウムイオン二次電池等の二次電池用セパレータとして使用することが可能であるが、リチウムイオン二次電池用多孔質セパレータとして使用することが特に好ましい。特に、リチウムイオン電池のセパレータとして使用する場合、成膜時において基板側の面をリチウムイオン電池の負極面側とすることにより、電池性能を向上することができる。
本発明における二次電池は、負極と正極との間に、電解液及び第三の態様のセパレータが配置され、第一の態様の焼成工程において基板側にあった、上記セパレータの面が前記負極側に配置されることを特徴とする。
・テトラカルボン酸二無水物:ピロメリット酸二無水物
・ジアミン:4,4’-ジアミノジフェニルエーテル
・有機溶剤:N,N-ジメチルアセトアミド
・分散剤:ポリオキシエチレン二級アルキルエーテル系分散剤
・微粒子
シリカ(1):平均粒径300nmのシリカ
シリカ(2):平均粒径700nmのシリカ
[ワニスの調製]
(1)第一のワニス
撹拌機、撹拌羽根、還流冷却機、窒素ガス導入管を備えたセパラブルフラスコに、テトラカルボン酸二無水物6.5gと、ジアミン6.7gと、有機溶剤30gとを投入した。窒素ガス導入管よりフラスコ内に窒素を導入し、フラスコ内を窒素雰囲気とした。次いで、フラスコの内容物を撹拌しながら、50℃で20時間、テトラカルボン酸二無水物と、ジアミンとを反応させて、ポリアミド酸溶液を得た。得られたポリアミド酸溶液に、微粒子としてシリカ(1)を、75g添加し撹拌して、ポリアミド酸と微粒子との体積比を22:78(質量比は15:85)とした第一のワニスを調製した。
(2)第二のワニス
得られたポリアミド酸溶液に、微粒子としてシリカ(2)を53g添加するほかは、(1)と同様にして、ポリアミド酸と微粒子との体積比を28:72(質量比は20:80)とした第二のワニスを調製した。
上記の第一のワニスを、剥離剤を塗布したガラス板にアプリケーターを用い、膜厚約2μmの膜を成膜した。続いて、そのうえに第二のワニスを、アプリケーターを用い成膜した。70℃で5分間プリベークして、膜厚25μmの未焼成複合膜を形成した。
上記ポリイミド-微粒子複合膜を、10%HF溶液中に10分間浸漬することで、膜中に含まれる微粒子を除去した。第一のワニスを用いた側、負極と接する側の面の表面をSEMにて観察した。図1に、その表面状態を示す。
実施例1の第二のワニスのみを使用し、一回で成膜を行った以外は、実施例1と同様にして多孔質ポリイミド膜を形成した。
市販セパレータ(セルガード2000)を使用した。
<比較例3>
実施例1の第一のワニスのみを使用し、一回で成膜を行った以外は、実施例1と同様にして多孔質ポリイミド膜を形成した。得られた多孔質ポリイミド膜は、非常に脆い状態で、ハンドリング性が不良だった。
後述の実施例2における第一のワニスのみを使用し、一回で成膜を行った以外は、実施例1と同様にして多孔質ポリイミド膜を形成した。得られた多孔質ポリイミド膜は、比較例3ほどではないものの脆い状態で、ハンドリング性が不良だった。
直径20mmのステンレス製コイン外装容器に、炭素負極電極、直径14mmの円形に切断したセパレータ、直径14mmの円形に切断した金属リチウム、更にスペーサとして直径14mmの円形に切断した厚さ200μmの銅箔をこの順番に重ね合わせ、電解液(1mol・dm-3のLiPF6:エチレンカーボネート/ジエチルカーボネート=1/1混合溶液(体積比))を溢れない程度に数滴垂らし、ポリプロピレン製のパッキンを介して、ステンレス製のキャップを被せ、コイン電池作製用のかしめ器で密封して負極評価用電池を作製した。製造に際して、実施例1のセパレータは、第一のワニスを使用した面側を負極に対向するようにして使用した。
充放電特性は、上記各評価用コイン電池を、恒温槽内で、充電は4.1Vまで2,2mAh(1C)の電流密度にて行った(CC-CV操作)後、放電を2.5Vまで2,2mAh(1C)、3C又は5Cの電流密度にて行った(CC操作)。表1にその結果を示す。表1()内の値は、レート3C又は5Cにおける静電容量の、1C容量を100%としたとき容量維持率(%)である。
第一のワニスのポリアミド酸と微粒子との体積比を18:82(質量比は12:88)となるよう調製した以外は、実施例1と同様にして多孔質ポリイミド膜を作成した。第一のワニスを用いた側、負極と接する側の面の表面をSEMにて観察した。図2に、比較例5の表面状態を示す。
第一のワニスのポリアミド酸と微粒子との体積比を34:66(質量比は25:75)となるよう調製し、第二のワニスのポリアミド酸と微粒子との体積比を40:60(質量比は30:70)となるよう調製した以外は、実施例1と同様にして多孔質ポリイミド膜を作成した。第一のワニスを用いた側、負極と接する側の面の表面をSEMにて観察した。図3に、実施例2の表面状態を示す。
上記の第一のワニスにより成膜する際、膜厚約1μmとし、未焼成複合膜全体の膜厚を約20μmとしたほかは、実施例1と同様にして多孔質ポリイミドを形成した。
ワニスの調製の際に、シリカ100重量部に対して10重量部の分散剤を使用したほかは、実施例3と同様にして多孔質ポリイミドを形成した。
実施例1の第一のワニスのみを用いて単層の前駆体フィルム形成したこと以外は、実施例3と同様にして未焼成複合膜全体の膜厚を約20μmとし、多孔質ポリイミドを形成した。この多孔質ポリイミドの表裏面の平均孔径は、いずれも同じ値となる。得られた多孔質ポリイミドは、非常に脆い状態で、ハンドリング性が不良だった。
実施例1の第二のワニスを用いたこと以外は、比較例6と同様にして多孔質ポリイミドを形成した。
[透気度]
厚さ約25μmの多孔質ポリイミド膜(そのうち第一未焼成複合膜に係る部分は約1μmである)を、5cm角に切り出した。ガーレー式デンソメーター(東洋精機製)を用いて、JIS P 8117に準じて、100mlの空気が上記サンプルを通過する時間を測定した。
多孔質ポリイミド膜の強度の評価として、多孔質ポリイミド膜の引張強度を測定した。
上記実施例3、4及び比較例6、7の多孔質ポリイミド膜のそれぞれについて、1cm×5cmの大きさに切り出して短冊状のサンプルを得た。このサンプルの破断時の応力(MPa)を、RTC-1210A TENSILON(ORIENTEC社製)を用いて評価した。
直径20mmのステンレス製コイン外装容器に、炭素負極電極、直径14mmの円形に切断した上記実施例3、4及び比較例6、7のセパレータ、直径14mmの円形に切断した金属リチウム、更にスペーサとして直径14mmの円形に切断した厚さ200μmの銅箔をこの順番に重ね合わせ、電解液(1mol・dm-3のLiPF6:エチレンカーボネート/ジエチルカーボネート=1/1混合溶液(体積比))を溢れない程度に数滴垂らし、ポリプロピレン製のパッキンを介して、ステンレス製のキャップを被せ、コイン電池作製用のかしめ器で密封してセパレータ評価用電池を作製した。製造に際して、第一のワニスを使用して製造した面側を負極に接するようにして、セパレータを使用した。それぞれの電池を、実施例B1、B2及び比較例B1、B2とする。
充放電特性は、上記各評価用コイン電池を、恒温槽内で、充電は4.1Vまで2.2mAh(1C)の電流密度にて行った(CC-CV操作)後、放電を2.5Vまで2.2mAh(1C)、3Cの電流密度にて行った(CC操作)。表3にその結果を示す。表1()内の値は、レート3Cにおける静電容量の、1C容量を100%としたとき容量維持率(%)である。
アルミラミネート外装に20mm×20mmの正極、20mm×20mmの上記実施例のセパレータを順に入れ、電解液(溶媒:エチレンカーボネート:エチルメチルカーボネート=3:7、電解質塩:LiPF6 1mol/l)を添加した。更に、20mm×20mmの負極を入れて電池ケースを密閉し、実施例B1、B2及び比較例B1、B2のリチウムイオン二次電池を得た。ここで、電極としては、ニッケル・コバルト・マンガン三元系の正極と、人造黒鉛系の負極を使用し、負極側に第1層が接するように配置した。
作製したリチウムイオン二次電池を用い、充放電測定装置でリチウム吸蔵による電位変化を測定した。温度25℃、充電速度0.2Cで4.2Vになるまで充電し、10分間休止したのち、放電速度2Cで電圧範囲2.7Vまで放電した。放電後は、10分間休止した。その際の、電池のAh利用率及びWh利用率(エネルギー維持率)を評価した。
各例の電池に使用するセパレータについて、約250℃のはんだごてを用いて以下の基準により耐熱性評価を行った。
○: はんだごての先端をフィルムの中央におしつけてもあとはつくが破れなかった
×: はんだごての先端をフィルムの中央におしつけると突き抜けた
圧壊試験としては、単層ラミネートセル電池を電圧4.2Vで充電を行った後、電池を寝かせた状態で長さ方向に対し垂直方向に直径15.8mmの丸棒で圧縮し、電圧が降下した時点で電池の内部短絡が生じたと判断し、その圧力で評価した。また、電圧が降下した時点から5秒後における電圧の降下量をΔV(V)とした。上記圧力は高い値を示すほど好ましく、電圧の降下量は低いほど好ましい。
Claims (6)
- (A1)ポリアミド酸又はポリイミド、及び(B1)微粒子を含み、(A1)と(B1)との体積比が19:81~45:65の第一のワニスを用いて、基板上に第一未焼成複合膜を成膜する第一未焼成複合膜成膜工程と、
(A2)ポリアミド酸又はポリイミド、及び(B2)微粒子を含み、(A2)と(B2)との体積比が20:80~50:50であって、前記第一のワニスよりも微粒子含有比率の低い第二のワニスを用いて、前記第一未焼成複合膜上に第二未焼成複合膜を成膜する第二未焼成複合膜成膜工程と、
前記第一未焼成複合膜及び前記第二未焼成複合膜からなる未焼成複合膜を焼成してポリイミド-微粒子複合膜を得る焼成工程と、
前記ポリイミド-微粒子複合膜から微粒子を取り除く微粒子除去工程と、
を有する多孔質ポリイミド膜の製造方法。 - 請求項1記載の方法で製造される多孔質ポリイミド膜。
- 請求項2記載の多孔質ポリイミド膜からなるセパレータ。
- 負極と正極との間に、電解液及び請求項3に記載のセパレータが配置され、前記セパレータの、前記焼成工程において基板側であった面が、前記負極側に配置される二次電池。
- (A1)ポリアミド酸又はポリイミド、及び(B1)微粒子を含み、(A1)と(B1)との体積比が19:81~45:65の第一のワニスを用いて、基板上に第一未焼成複合膜を成膜する第一未焼成複合膜成膜工程と、
(A2)ポリアミド酸又はポリイミド、及び(B2)微粒子を含み、(A2)と(B2)との体積比が20:80~50:50であって、前記第一のワニスよりも微粒子含有比率の低い第二のワニスを用いて、前記第一未焼成複合膜上に第二未焼成複合膜を成膜する第二未焼成複合膜成膜工程と、
を有する未焼成複合膜の製造方法。 - 請求項5の方法で製造された未焼成複合膜を焼成する焼成工程を有するポリイミド-微粒子複合膜の製造方法。
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CN104742461A (zh) * | 2015-04-16 | 2015-07-01 | 达迈科技股份有限公司 | 低光泽度的双层聚酰亚胺膜及其制造方法 |
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JP5745195B2 (ja) | 2015-07-08 |
US9911955B2 (en) | 2018-03-06 |
EP2990199A4 (en) | 2016-04-20 |
CN104853919A (zh) | 2015-08-19 |
EP2990199A1 (en) | 2016-03-02 |
EP2990199B1 (en) | 2018-11-14 |
KR20160031037A (ko) | 2016-03-21 |
US9601739B2 (en) | 2017-03-21 |
TW201506059A (zh) | 2015-02-16 |
KR20150020712A (ko) | 2015-02-26 |
US20160072110A1 (en) | 2016-03-10 |
KR101670617B1 (ko) | 2016-10-28 |
CN109608682A (zh) | 2019-04-12 |
TWI598378B (zh) | 2017-09-11 |
US20170187021A1 (en) | 2017-06-29 |
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