Polyimide porous film
First Claim
1. A polyimide porous film obtained by drying and imidizing a polyimide precursor porous film which is substantially homogeneous on both sides, the polyimide porous film having pores on both sides wherein the pores all satisfy the following conditions 1) to 4):
- 1) The difference in the mean pore size of both sides is less than 200% based on the smaller average value of the mean pore size. 2) The coefficient of variation for the pore size on each side is smaller than 70%. 3) The coefficient of variation for the pore centroid distance on each side is smaller than 50%. 4) The mean pore size on each side is 0.05-5 μ
m.
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Abstract
A polyimide porous film obtained by drying and imidizing a polyimide precursor porous film which is substantially homogeneous on both sides, the polyimide porous film having pores on both sides wherein the pores all satisfy the conditions: 1) the difference in the mean pore size of both sides is less than 200% based on the smaller average value of the mean pore size, 2) the coefficient of variation for the pore size on each side is smaller than 70%, 3) the coefficient of variation for the pore centroid distance on each side is smaller than 50%, and 4) the mean pore size on each side is 0.05-5 μm.
8 Citations
6 Claims
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1. A polyimide porous film obtained by drying and imidizing a polyimide precursor porous film which is substantially homogeneous on both sides, the polyimide porous film having pores on both sides wherein the pores all satisfy the following conditions 1) to 4):
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1) The difference in the mean pore size of both sides is less than 200% based on the smaller average value of the mean pore size. 2) The coefficient of variation for the pore size on each side is smaller than 70%. 3) The coefficient of variation for the pore centroid distance on each side is smaller than 50%. 4) The mean pore size on each side is 0.05-5 μ
m.- View Dependent Claims (2, 3, 4, 5, 6)
(1) The polyimide precursor dope solution comprises 0.2-30 wt % of a polyimide precursor and 99.8-70 wt % of a mixture of a solvent and a non-solvent therefor. (2) The mixed solvent of the dope solution comprises 50-90 wt % of the solvent and 50-10 wt % of the non-solvent (for a total of 100 wt %), (3) The coagulating solution comprises 50-90 wt % of the non-solvent and 50-10 wt % of the non-solvent for the polyimide precursor (for a total of 100 wt %). (4) The compositional ratio of the solvent in the dope solution is greater than the compositional ratio of the solvent in the coagulating solution.
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3. A polyimide porous film according to claim 1, wherein the polyimide precursor porous film is obtained by a method of casting the polyimide precursor dope onto a substrate, forming on said liquid film a protective layer comprising a mixture of a solvent and a non-solvent, with 30-70 wt % of a non-solvent and 70-30 wt % of a polar solvent for the polyimide precursor (for a total of 100 wt %), and then immersing it in a coagulating solution.
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4. A polyimide porous film according to claim 3, wherein the polyimide precursor porous film is obtained using as the non-solvent component of the protective film an aliphatic monohydric alcohol of 3-5 carbons.
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5. A polyimide porous film according to claim 3, wherein the polyimide precursor porous film is obtained using as the non-solvent component of the protective layer a polyhydroxy alcohol selected from among alkylene glycols, glycerin and polyalkylene glycols and their derivatives, and u-sing a coagulating solution with a composition comprising at least 60 wt % water.
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6. A polyimide porous film according to claim 1, which is used for a battery separator or micro-filter.
Specification