The present invention relates to electrical separators, especially for use in lithium high energy batteries, and to a process for making them. Separators for use in lithium high energy batteries have to have a very low weight and a very low thickness. It has been found that, surprisingly, such separ
The present invention relates to electrical separators, especially for use in lithium high energy batteries, and to a process for making them. Separators for use in lithium high energy batteries have to have a very low weight and a very low thickness. It has been found that, surprisingly, such separators having a weight of less than 50 g/m2 and a thickness of less than 35 μm are preparable by applying a ceramic coating to a polymeric web less than 30 μm in thickness, these separators being very useful in lithium high energy batteries when pyrogenic oxides of the elements Al, Si and/or Zr are used as a particulate pore-forming component.
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The invention claimed is: 1. A separator especially for lithium high energy batteries, comprising a sheetlike flexible substrate having a multiplicity of openings and having a porous inorganic coating on and in said substrate, the material of said substrate being selected from a nonwoven of electri
The invention claimed is: 1. A separator especially for lithium high energy batteries, comprising a sheetlike flexible substrate having a multiplicity of openings and having a porous inorganic coating on and in said substrate, the material of said substrate being selected from a nonwoven of electrically nonconductive polymeric fibers, wherein the separator has a weight of less than 50 g/m2 and a thickness of less than 35 μm and in that the porous inorganic coating is constructed from oxide particles having a primary particle size of from 5 to 100 nm and adhered via SiO2 or ZrO2, wherein the coating is prepared from a sol or suspension comprising a solvent which comprises a mixture of at least one alcohol and at least one hydrocarbon. 2. The separator of claim 1, wherein said separator has a weight of less than 20 g/m2. 3. The separator of claim 1 wherein said polymeric fibers are selected from fibers of polyacrylonitrile, polyester and/or polyolefin. 4. The separator of claim 1 wherein said polymeric fibers are from 0.1 to 10 μm in diameter. 5. The separator of claim 1 wherein said flexible substrate has a porosity of from 50% to 97%. 6. The separator of claim 1 wherein said flexible substrate is less than 30 μm in thickness. 7. The separator of claim 6, wherein said nonwoven is less than 20 g/m2 in weight. 8. The separator of claim 1 wherein said coating on and in said substrate comprises an oxide of the metals Al, Zr and/or Si. 9. The separator of claim 1 wherein said separator has a porosity of from 30% to 80%. 10. The separator of claim 1 wherein said separator has a breaking strength of more than 1 N/cm. 11. The separator of claim 1 wherein said separator is bendable around a radius down to 50 mm without damage. 12. The separator of claim 1 wherein said separator is bendable around a radius down to 0.5 mm without damage. 13. A process for producing a separator as claimed in claim 1 wherein said process comprises providing a sheetlike flexible substrate having a multiplicity of openings with a coating on and in said substrate, the material of said substrate being selected from nonwovens less than 30 μm in thickness of electrically nonconductive fibers of polymers and said coating being a porous electrically insulating ceramic coating which is prepared by applying a suspension to said substrate and heating one or more times to solidify said suspension on and in said substrate, the suspension being obtained by suspending metal oxide particles of at least one oxide of the elements Al, Zr and/or Si, which have a primary particle size of from 5 to 100 nm, in a sol of at least one of the elements Si and/or Zr. 14. The process of claim 13, wherein said fibers are selected from the group consisting of polyacrylonitrile, polyester, polyolefin and mixtures thereof. 15. The process of claim 13 wherein said suspension is brought onto and into said substrate by printing, pressing, rolling, knifecoating, spreadcoating, dipping, spraying or pouring. 16. The process of claim 13 wherein said sol is prepared by hydrolyzing at least one alkoxide compound of the elements Zr, Al and/or Si or at least one nitrate, carbonate or halide of the elements Zr, Al and/or Si. 17. The process of claim 13 wherein metal oxide particles having an average primary particle size of from 7 to 50 nm are suspended. 18. The process of claim 13 wherein the mass fraction of said suspended component is from 1 to 100 times that of the sol used. 19. The process of claim 13 wherein said suspension present on and in said support is solidified by heating at from 150 to 500° C. 20. The process of claim 19, wherein said heating is effected at from 200 to 280° C. for from 0.5 to 10 minutes. 21. A battery comprising a separator as claimed in claim 1. 22. The battery as claimed in claim 21 wherein said battery is a lithium high energy battery. 23. A method of separating components in a battery comprising utilizing the separator as claimed in claim 1. 24. The method as claimed in claim 23 wherein said battery is a lithium battery. 25. The separator of claim 1 wherein the solvent comprises (1) at least one of methanol, ethanol and propanol, and (2) cyclohexane.
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