Composite separator for electrochemical cell capable of sustained shutdown

We claim: 1. A multi-layer article comprising a first positive electrode material, a second negative electrode material, and a porous separator disposed between and in contact with the first and the second electrode materials, wherein the porous separator comprises a porous film (layer A) disposed in a face to face relationship with a non-woven fabric layer (layer B); said non-woven fabric layer B having a mean fiber diameter of 3 μm or less, a mean pore size of 6 μm or less, and a porosity less than 40%; said porous film A having a thickness of 2 μm or greater and is a micro-porous polyolefin membrane having a mean flow pore size of less than or equal to 0.5 μm and a porosity of 30 to 60%; and wherein; the B layer consists of fibers of fully aromatic polyimide that is at least 90% imidized; and wherein the thickness of the A layer plus the B layer combined is less than or equal to 50 microns. 2. The multilayer article of claim 1 wherein the nonwoven layer (B) is in contact with the positive electrode and is disposed in between the positive electrode and the film layer A. 3. The multilayer article of claim 1 in which the nonwoven fabric layer B comprises staple fibers. 4. The multi-layer article of claim 1 wherein the polyimide is characterized by a crystallinity index of 0.1 or greater. 5. The multi-layer article of claim 1 wherein the fully aromatic polyimide comprises PMDA/ODA. 6. The multi-layer article of claim 1 wherein the first electrode material, the separator, and the second electrode material are stuck together in the form of a laminate. 7. The multi-layer article of claim 1 further comprising at least one metallic current collector in contact with at least one of the first or second electrode materials. 8. A multi-layer article comprising; a first layer comprising a first metallic current collector; a second layer comprising a first electrode material, in contact with the first metallic current collector; a third layer comprising a porous separator, in contact with the first electrode material; a fourth layer comprising a second electrode material, contacting the porous separator; and, a fifth layer comprising a second metallic current collector, contacting the second electrode material; wherein the porous separator comprises a porous film (layer A) disposed in a face to face relationship with a nonwoven fabric layer (layer B); said non-woven fabric layer B having a mean fiber diameter of 3 μm or less, a mean pore size of 6 μm or less, and a porosity less than 40%; said porous film A having a thickness of 2 μm or greater and is a micro-porous polyolefin membrane having a mean flow pore size of less than or equal to 0.5 μm and a porosity of 30 to 60%; and wherein; the B layer consists of fibers of fully aromatic polyimide that is at least 90% imidized; and wherein the thickness of the A layer plus the B layer combined is less than or equal to 50 microns. 9. The multi-layer article of claim 8 wherein the first metallic current collector comprises copper foil, the first electrode material comprises carbon, the fully aromatic polyimide comprises PMDA/ODA, the second electrode material comprises lithium metal oxide, and the second metallic current collector comprises aluminum foil. 10. The multi-layer article of claim 1 wherein the first and second electrode materials are the same material. 11. The multi-layer article of claim 1 wherein the first and second electrode materials are different materials. 12. The multi-layer article of claim 8 wherein the first and second electrode materials are the same material. 13. The multi-layer article of claim 8 wherein the first and second electrode materials are different material. 14. The multi-layer article of claim 8 wherein the first and second metallic current collectors comprise aluminum foil; the first and second electrode materials comprise carbon; and the fully aromatic polyimide comprises PMDA/ODA. 15. The multi-layer article of claim 1 , wherein a thickness of the non-woven fabric layer (B layer) is 25 μm or less. 16. The multi-layer article of claim 1 , wherein the polyolefin has a peak crystal melting temperature of from 100° C. to 250° C. 17. The multi-layer article of claim 1 , wherein the polyolefin has a peak crystal melting temperature of from 100° C. to 150° C. 18. A battery or capacitor comprising the multi-layer article as recited in claim 1 . 19. The multi-layer article of claim 1 , wherein the porous membrane layer (A layer) is in contact, either directly or via an adhesive layer, with the non-woven fabric layer (B layer). 20. The multilayer article of claim 1 in which the maximum resistance reached in a shutdown test divided by the initial resistance is greater than or equal to 100 and the resistance at 50° C. higher than the resistance onset temperature divided by the initial resistance is greater than or equal to 100. 21. The multilayer article of claim 20 in which the maximum resistance reached in a shutdown test divided by the initial resistance is greater than or equal to 100 and the resistance at 50° C. higher than the resistance onset temperature divided by the initial resistance is greater than or equal to 114.