This invention provides a multi-layer article comprising a first electrode material, a second 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 nanoweb consisting essentially of a plu
This invention provides a multi-layer article comprising a first electrode material, a second 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 nanoweb consisting essentially of a plurality of nanofibers of a fully aromatic polyimide. Also provided is a method for preparing the multi-layer article, and an electrochemical cell employing the same. A multi-layer article comprising a polyimide nanoweb with enhanced properties is also provided.
대표청구항▼
1. An electrochemical cell comprising a housing having disposed therewithin an electrolyte, and a multi-layer article at least partially immersed in the electrolyte; wherein the multi-layer article comprises a first metallic current collector, a first electrode material in electrically conductive co
1. An electrochemical cell comprising a housing having disposed therewithin an electrolyte, and a multi-layer article at least partially immersed in the electrolyte; wherein the multi-layer article comprises a first metallic current collector, a first electrode material in electrically conductive contact with the first metallic current collector, a second electrode material in ionically conductive contact with the first electrode material, a porous separator disposed between and contacting the first electrode material and the second electrode material, and a second metallic current collector in electrically conductive contact with the second electrode material;wherein the porous separator comprises a nanoweb that comprises a plurality of nanofibers, and the nanofibers consist essentially of a fully aromatic polyimide and wherein the fully aromatic polyimide is characterized by a crystallinity index of 0.11 or greater;wherein the electrolyte comprises an organic solvent and a lithium salt soluble therein; andwherein the solvent comprises propylene carbonate, esters, ethers, or trimethylsilane derivatives of ethylene glycol or poly(ethylene glycols) or combinations of the foregoing. 2. An electrochemical cell comprising a housing having disposed therewithin an electrolyte, and a multi-layer article at least partially immersed in the electrolyte; wherein the multi-layer article comprises a first metallic current collector, a first electrode material in electrically conductive contact with the first metallic current collector, a second electrode material in ionically conductive contact with the first electrode material, a porous separator disposed between and contacting the first electrode material and the second electrode material, and a second metallic current collector in electrically conductive contact with the second electrode material;wherein the porous separator comprises a nanoweb that comprises a plurality of nanofibers, and the nanofibers consist essentially of a fully aromatic polyimide and wherein the fully aromatic polyimide is characterized by a crystallinity index of 0.11 or greater;wherein the electrolyte comprises an organic solvent and a lithium salt soluble therein; andwherein the lithium salt comprises lithium hexafluoroarsenate, lithium bis-trifluoromethyl sulfonamide, lithium bis(oxalate)boronate, lithium difluorooxalatoboronate, or the Li+ salt of polyfluorinated cluster anions, or combinations of the foregoing. 3. The electrochemical cell of claim 2 wherein the negative electrode comprises a coating of carbon, graphitic carbon, coke, lithium titanates, Li—Sn alloys, Si, Si—C composites, or mixtures thereof, on copper foil. 4. The electrochemical cell of claim 2 wherein both electrodes comprise carbon. 5. An electrochemical cell comprising a housing having disposed therewithin an electrolyte, and a multi-layer article at least partially immersed in the electrolyte; wherein the multi-layer article comprises a first metallic current collector, a first electrode material in electrically conductive contact with the first metallic current collector, a second electrode material in ionically conductive contact with the first electrode material, a porous separator disposed between and contacting the first electrode material and the second electrode material, and a second metallic current collector in electrically conductive contact with the second electrode material;wherein the porous separator comprises a nanoweb that comprises a plurality of nanofibers, and the nanofibers consist essentially of a fully aromatic polyimide and wherein the fully aromatic polyimide is characterized by a crystallinity index of 0.11 or greater; andwherein the positive electrode comprises a coating of a lithium cobalt oxide, lithium iron phosphate, lithium nickel oxide, lithium manganese phosphate, lithium cobalt phosphate, MNC (LiMn(1/3)Co(1/3)Ni(1/3)O2), NCA (Li(Ni1-y-zCoyAlz)O2), lithium manganese oxide, or mixtures thereof on aluminum foil.
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이 특허에 인용된 특허 (3)
Arora,Pankaj; Frisk,Simon; Zhang,Lu, Batteries including improved fine fiber separators.
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