Claims
- 1. A process for making a composite polymer membrane, which comprises:
- (a) providing a membrane comprising a first polymeric material which defines a microporous matrix and a second material which includes a photoinitiator and which at least partially fills, and thereby blocks, the pores of the matrix; and
- (b) exposing a surface of said membrane to ultraviolet radiation and polymerizing and crosslinking said second material, said membrane having a thickness of no more than about 250 micrometers.
- 2. A process as claimed in claim 1, in which the second material is mixed with a crosslinking agent.
- 3. A process as claimed in claim 2, in which the mole ratio of crosslinking agent to the second material is at least 0.1%.
- 4. A process as claimed in claim 2, in which the crosslinking agent forms a secondary radical or a tertiary non-conjugated radical when the membrane is irradiated.
- 5. A process as claimed in claim 1, in which the second material comprises an ethylenically unsaturated acid or an ester thereof.
- 6. A process as claimed in claim 1, in which the second material and the conditions under which it is irradiated are selected to provide the membrane with an ion exchange capacity of greater than 1 milliequivalent per gram.
- 7. A process as claimed in claim 1, which includes the step of forming a porous matrix of the first polymeric material by removal of a pore forming material.
- 8. A process as claimed in claim 6, in which the first polymeric material is polyethylene and the porous matrix is formed by liquid extraction of polyethylene oxide dispersed therein.
- 9. An electrochemical device which comprises an anode, a cathode, a liquid electrolyte, and an electrode separator which is a composite polymer membrane that is made by the process claimed in claim 1.
- 10. A process as claimed in claim 1, in which at least about 75% of the volume of the pores within the matrix of the first polymeric material is filled by the second material.
- 11. A process as claimed in claim 10, in which at least about 95% of the volume of the pores within the matrix of the first polymeric material is filled by the second material.
- 12. A process as claimed in claim 1, in which said surface of said membrane is exposed to ultraviolet radiation, said membrane having a thickness of from about 25 to about 100 micrometers.
- 13. A process as claimed in claim 1, in which the first material comprises polyethylene.
- 14. A process for making a composite polymer membrane, which comprises:
- (a) forming a membrane from a blend of two polymeric materials, the first material defining a microporous matrix and the second material including a photoinitiator and at least partially filling, and thereby blocking, the pores of the matrix; and
- (b) exposing a surface of said membrane to ultraviolet radiation and crosslinking said second material, said membrane having a thickness of no more than about 250 micrometers.
- 15. A process as claimed in claim 14, in which the second material is mixed with a crosslinking agent.
- 16. A process as claimed in claim 15, in which the mole ratio of crosslinking agent to the second material is at least 0.1%.
- 17. A process as claimed in claim 15, in which the crosslinking agent forms a secondary radical or a tertiary non-conjugated radical when the membrane is irradiated.
- 18. A process as claimed in claim 14, in which the second material comprises a polymer of an ethylenically unsaturated acid or an ester thereof.
- 19. A process as claimed in claim 14, the second material is impregnated in the pores of the matrix of the first polymeric material while in solution.
- 20. An electrochemical device which comprises an anode, a cathode, a liquid electrolyte, and an electrode separator which is a composite polymer membrane that is made by the process claimed in claim 14.
- 21. A process as claimed in claim 14, in which the membrane is formed by melt-processing a blend of the first and second materials.
- 22. A process as claimed in claim 21, in which the membrane is formed by extrusion.
- 23. A process as claimed in claim 14, in which at least about 75% of the volume of the pores within the matrix of the first polymeric material is filled by the second material.
- 24. A process as claimed in claim 23, in which at least about 95% of the volume of the pores within the matrix of the first polymeric material is filled by the second material.
- 25. A process as claimed in claim 14 in which said surface of said membrane is exposed to ultraviolet radiation, said membrane having a thickness of from about 25 to about 100 micrometers.
- 26. A process as claimed in claim 14, in which the first material comprises polyethylene.
Priority Claims (1)
Number |
Date |
Country |
Kind |
8608430 |
Apr 1986 |
GBX |
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Parent Case Info
This is a continuation of application Ser. No. 07/284,749 filed on Dec. 12, 1988, now abandoned, which is a continuation of application Ser. No. 07/133,106, filed on Dec. 3. 1987, now abandoned, and as described and claimed in International Application PCT/GB87/00237, filed on Apr. 6, 1987.
PCT Information
Filing Document |
Filing Date |
Country |
Kind |
102e Date |
371c Date |
PCT/GB87/00237 |
4/6/1987 |
|
|
12/3/1987 |
12/3/1987 |
Publishing Document |
Publishing Date |
Country |
Kind |
WO87/06395 |
10/22/1987 |
|
|
US Referenced Citations (8)
Foreign Referenced Citations (11)
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Country |
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EPX |
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Feb 1980 |
FRX |
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Mar 1980 |
JPX |
1039444 |
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GBX |
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GBX |
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GBX |
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GBX |
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GBX |
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GBX |
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GBX |
Non-Patent Literature Citations (2)
Entry |
Extended Abstracts, vol. 80-2, 1980 (Pennington, New Jersey, USA), W. H. Philipp et al., "New Ion Exchange Membranes" pp. 1537-1538, abstract No. 618. |
Chemical Abstracts, vol. 93, No. 6, Sep. 1980 (Columbus, Ohio, USA), p. 498, abstract No. 122614u & JP, A, 8032375 (Sumitomo Chemical) Mar. 7, 1980. |
Continuations (2)
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Number |
Date |
Country |
Parent |
284749 |
Dec 1988 |
|
Parent |
133106 |
Dec 1987 |
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