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A matted particulate electrode located between the current collector and a porous separator of a rechargeable lithium battery is described, which contains electro-active particles intermixed with pliable, solid, lithium ion conducting, polymer electrolyte filaments having adhesive surfaces. The elec

A matted particulate electrode located between the current collector and a porous separator of a rechargeable lithium battery is described, which contains electro-active particles intermixed with pliable, solid, lithium ion conducting, polymer electrolyte filaments having adhesive surfaces. The electro-active particles and the optionally added electro-conductive carbon particles adhere to the tacky surface of the adhesively interlinking polymer electrolyte filaments. The matted particulate electrode is impregnated with an organic solution containing another lithium compound. In a second embodiment the porous separator is coated on at least one of its faces, with polymer electrolyte having an adhesive surface and made of the same polymer as the electrolyte filaments. The polymer electrolyte filaments in the matted layer may adhere to the coated surface of the separator. In addition the polymer coating is partially filling the pores of the porous electrolyte, but leaving sufficient space in the pores for the organic solution to penetrate the separator of the lithium battery.

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1. A particulate electrode for a rechargeable lithium battery, said rechargeable lithium battery including at least two electrodes of opposite polarity, at least two current collectors and an inert, porous polymer separator, comprising,a particulate mixture of electro-active particles intermixed wit

1. A particulate electrode for a rechargeable lithium battery, said rechargeable lithium battery including at least two electrodes of opposite polarity, at least two current collectors and an inert, porous polymer separator, comprising,a particulate mixture of electro-active particles intermixed with pliable, solid, ion conducting, polymer filaments having adhesive surfaces and containing a first dissociable lithium compound, wherein said pliable, solid, ion conducting, polymer filaments having adhesive surfaces are adhesively interlinked, and said electro-active particles are adhering to said surface of said pliable, solid, ion conducting, polymer filaments, thereby forming a matted layer held adhesively together, said matted layer having voids which are capable of being impregnated by means of filling said voids with a non-aqueous solution containing a second dissociable lithium compound, and said matted layer being located between said current collector and said inert, porous polymer separator of said rechargeable lithium battery. 2. A particulate electrode for a rechargeable lithium battery, said rechargeable lithium battery including at least two electrodes of opposite polarity, at least two current collectors and an inert, porous polymer separator, as claimed in claim 1, wherein said pliable, solid, ion conducting, polymer filaments have a length ranging between 5 and 30 μm and a cross-sectional diameter less than 1 μm, and the ratio of said cross-sectional diameter of said pliable, solid, ion conducting, polymer filaments to said length ranges between 1:5 and 1:100. 3. A particulate electrode for a rechargeable lithium battery, said rechargeable lithium battery including at least two electrodes of opposite polarity, at least two current collectors and an inert, porous polymer separator, as claimed in claim 1, wherein said electro-active particles are additionally intermixed with fine carbon in an amount less than 7 wt. %. 4. A particulate electrode for a rechargeable lithium battery, said rechargeable lithium battery including at least two electrodes of opposite polarity, at least two current collectors and an inert, porous polymer separator, as claimed in claim 1, wherein said pliable, solid, ion conducting, polymer filaments having adhesive surfaces are made of at least one of the polymers selected from the group consisting of an oxide of polyolefin polymers and polyvinylidene fluoride copolymers. 5. A particulate electrode for a rechargeable lithium battery, said rechargeable lithium battery including at least two electrodes of opposite polarity, at least two current collectors and an inert, porous polymer separator, as claimed in claim 1, wherein said first dissociable lithium compound is the same as said second dissociable lithium compound. 6. A particulate electrode for a rechargeable lithium battery, said rechargeable lithium battery including at least two electrodes of opposite polarity, at least two current collectors and an inert, porous polymer separator, as claimed in claim 1, wherein said first dissociable lithium compound is different from said second dissociable lithium compound. 7. A particulate electrode for a rechargeable lithium battery, said rechargeable lithium battery including at least two electrodes of opposite polarity, at least two current collectors and an inert, porous polymer separator, as claimed in claim 1, wherein said first dissociable lithium compound and said second lithium compound is selected from the group consisting of lithium perchlorate (LiClO 4 ), lithium borofluoride (LiBF 4 ), lithium phosphofluoride (LiPF 6 ), lithium arsenofluoride, (LiAsF 6 ), lithium antimony-fluoride (LiSbF 6 ) and lithium triflate (LiCF 3 SO 3 ). 8. A particulate electrode for a rechargeable lithium battery, said rechargeable lithium battery including at least two electrodes of opposite polarity, at least two current collectors and an inert, porous polymer separator, as claimed in cla im 1, wherein said non-aqueous solution comprises an organic carbonate or a liquid mixture of organic carbonates. 9. A particulate electrode for a rechargeable lithium battery, said rechargeable lithium battery including at least two electrodes of opposite polarity, at least two current collectors and an inert, porous polymer separator, as claimed in claim 1, wherein said electro-active particles in said particulate mixture are negative-active particles capable of reversibly intercalating lithium ions. 10. A particulate electrode for a rechargeable lithium battery, said rechargeable lithium battery including at least two electrodes of opposite polarity, at least two current collectors and an inert, porous polymer separator, as claimed in claim 9, wherein said negative-active particles are carbonaceous particles capable of reversibly intercalating lithium. 11. A particulate electrode for a rechargeable lithium battery, said rechargeable lithium battery including at least two electrodes of opposite polarity, at least two current collectors and an inert, porous polymer separator, as claimed in claim 1, wherein said electro-active particles are positive-active particles capable of reversibly intercalating lithium ions. 12. A particulate electrode for a rechargeable lithium battery, said rechargeable lithium battery including at least two electrodes of opposite polarity, at least two current collectors and an inert, porous polymer separator, as claimed in claim 11, wherein said positive-active particles are selected from the group consisting of: particles of lithiated transition metal oxides, particles of lithiated solid solution of transition metal oxides, and particles of lithiated transition metal sulphides. 13. A rechargeable lithium battery comprising:i) a current collector for a negative electrode;ii) a particulate negative electrode comprising a first particulate mixture of negative active particles intermixed with pliable, solid, ion conducting, polymer filaments having adhesive surfaces and containing a first dissociable lithium compound, wherein said pliable, solid, ion conducting, polymer filaments having adhesive surfaces are adhesively interlinked, and said negative active particles are adhering to said surface of said pliable, solid, ion conducting, polymer filaments, thereby forming a matted layer held adhesively together, said matted layer having voids which are capable of being impregnated by means of filling said voids with a non-aqueous solution containing a second dissociable lithium compound, and said matted layer being located adjacent said current collector for said negative electrode;iii) an inert, porous polymer separator; andiv) a particulate positive electrode comprising a second particulate mixture of positive active particles intermixed with pliable, solid, ion conducting, polymer filaments having adhesive surfaces and containing a first dissociable lithium compound, wherein said pliable, solid, ion conducting, polymer filaments having adhesive surfaces are adhesively interlinked, and said positive active particles are adhering to said surface of said pliable, solid, ion conducting polymer filaments, thereby forming a matted layer held adhesively together, said matted layer having voids which are capable of being impregnated by means of filling said voids with a non-aqueous solution containing a second dissociable lithium compound and said matted layer being located between said inert, porous polymer separator, and a current collector for said positive electrode. 14. A rechargeable lithium battery as claimed in claim 13, wherein said pliable, solid, ion conducting, polymer filaments having adhesive surfaces are made of at least one of the polymers selected from the group consisting of an oxide of polyolefin polymers and polyvinylidene fluoride copolymers. 15. A rechargeable lithium battery as claimed in claim 13 or claim 14, wherein said first dissociable lithium compound is the same as said second diss ociable lithium compound. 16. A rechargeable lithium battery as claimed in claim 13 or claim 14, wherein said first dissociable lithium compound is different from said second dissociable lithium compound. 17. A rechargeable lithium battery as claimed in claim 13 or 14, wherein said inert, porous polymer separator has a multiplicity of layers. 18. A rechargeable lithium battery as claimed in claim 13 or 14, wherein said negative active particles in said first particulate mixture are carbonaceous particles capable of reversibly intercalating lithium. 19. A rechargeable lithium battery as claimed in claim 14, wherein said positive active particles in said second particulate mixture are selected from the group consisting of: particles of lithiated transition metal oxides, particles of lithiated solid solution of transition metal oxides, and particles of lithiated transition metal sulphides. 20. A rechargeable lithium battery as claimed in claim 19, wherein said positive active particles are additionally intermixed with fine carbon in an amount less than 7 wt. %. 21. A rechargeable lithium battery comprising:i) a current collector for a negative electrode;ii) a particulate negative electrode comprising a first particulate mixture of negative active particles intermixed with pliable, solid, ion conducting, polymer filaments having adhesive surfaces and containing a first dissociable lithium compound, wherein said pliable, solid, ion conducting polymer filaments having adhesive surfaces are adhesively interlinked, and said negative active particles are adhering to said surface of said pliable, solid, ion conducting, polymer filaments, thereby forming a matted layer held adhesively together, said matted layer having voids which are capable of being impregnated by means of filling said voids with a non-aqueous solution containing a second dissociable lithium compound, and said matted layer being located adjacent said current collector for said negative electrode;iii) an inert, porous polymer separator, wherein said inert, porous polymer separator has a pair of opposing faces, and at least one of said opposing faces is coated with a porous, solid, ion conducting, polymer coating comprising the same polymer as said pliable, solid, ion conducting, polymer filaments; andiv) a particulate positive electrode comprising a second particulate mixture of positive active particles intermixed with pliable, solid, ion conducting, polymer filaments having adhesive surfaces and containing a first dissociable lithium compound, wherein said pliable, solid, ion conducting polymer filaments having adhesive surfaces are adhesively interlinked, and said positive active particles are adhering to said surface of said pliable, solid, ion conducting, polymer filaments, thereby forming a matted layer held adhesively together, said matted layer having voids which are capable of being impregnated by means of filling said voids with a non-aqueous solution containing a second dissociable lithium compound and said matted layer being located between said inert, porous polymer separator, and a current collector for said positive electrode. 22. A rechargeable lithium battery as claimed in claim 21, wherein said porous, solid, ion conducting polymer coating on at least one of said opposing faces of said inert, porous polymer separator is additionally coating the walls of the pores of said inert, porous polymer separator, thereby yielding partially filled pores. 23. A rechargeable lithium battery as claimed in claim 21 or claim 22, wherein said pliable, solid, ion conducting, polymer filaments having adhesive surfaces are made of at least one of the polymers selected from the group consisting of an oxide of polyolefin polymers and polyvinylidene fluoride copolymers. 24. A rechargeable lithium battery as claimed in claim 21 or 22, wherein said first dissociable lithium compound is the same as said second dissociable lithium compound. 25. A rechargeable lithium battery as claimed in claim 21 or 22, wherein said first dissociable lithium compound is different from said second dissociable lithium compound. 26. A rechargeable lithium battery as claimed in claim 21 or 22, wherein said pliable, solid ion conducting polymer filaments comprised in said first and said second particulate mixture are capable of being adhesively attached to said porous, solid, ion conducting, polymer coating on at least one of said opposing faces of said inert, porous polymer separator. 27. A rechargeable lithium battery as claimed in claim 21 or 22, wherein said inert, porous polymer separator has a multiplicity of layers. 28. A rechargeable lithium battery as claimed in claim 21 or 22, wherein said negative active particles in said first particulate mixture are carbonaceous particles capable of reversibly intercalating lithium. 29. A rechargeable lithium battery as claimed in claim 22, wherein said positive active particles in said second particulate mixture are selected from the group consisting of: particles of lithiated transition metal oxides, particles of lithiated solid solution of transition metal oxides, and particles of lithiated transition metal sulphides. 30. A rechargeable lithium battery as claimed in claim 29, wherein said positive active particles are additionally intermixed with fine carbon in an amount less than 7 wt. %.