An electrochemical cell and corresponding electrode assembly are described in which an alkali metal anode and a cathode assembly are wound together in a unidirectional winding having substantially straight sides such that the winding will fit into a prismatic cell. The anode and cathode are preferab
An electrochemical cell and corresponding electrode assembly are described in which an alkali metal anode and a cathode assembly are wound together in a unidirectional winding having substantially straight sides such that the winding will fit into a prismatic cell. The anode and cathode are preferably arranged in the winding to provide for even utilization of reactive material during cell discharge by placing cathode and anode material in close proximity throughout the electrode assembly in the proportions in which they are utilized. An anode current collector having a length or height shorter than at least one of the length or height of the cathode current collector or alkali metal strips operatively associated with the anode current collector is also described.
대표청구항▼
1. A coiled electrode assembly, comprising:an elongated, relatively thin lithium anode member having a longitudinal anode length dimension; and an electrically conductive metallic anode current collector coupled to said anode member, said current collector having a longitudinal current collector len
1. A coiled electrode assembly, comprising:an elongated, relatively thin lithium anode member having a longitudinal anode length dimension; and an electrically conductive metallic anode current collector coupled to said anode member, said current collector having a longitudinal current collector length dimension wherein said longitudinal current collector dimension is substantially less than the longitudinal anode length dimension, wherein said longitudinal current collector dimension comprises one of about: 40%, 50%, 60%, 70% and 80% the longitudinal anode length dimension.2. The electrode assembly of claim 1, further comprising a cathode member spaced from the anode with a separator material disposed therebetween, wherein said cathode member comprises of at least a one of: a solid reactive material, a binder material and a conductivity enhancer.3. The electrode assembly of claim 2, wherein the solid reactive material comprises a silver vanadium oxide material.4. The electrode assembly of claim 2, wherein the binder material further comprises a PTFE material.5. The electrode assembly of claim 2, wherein the conductivity enhancer further comprises a conductive carbon.6. The coiled electrode assembly of claim 1, further comprising:a first layer of separator material forming a pocket around the anode assembly formed by folding a separator material sheet over a top edge of the alkali metal, conforming the separator material sheet to the anode assembly, and joining the separator material sheet to itself with a seal at a bottom edge of the anode assembly; and wherein a second layer of separator material forms a pocket around a cathode member formed by a folded portion of a sheet of separator material, said folded portion conforming the sheet of separator material to the cathode member, and joining the sheet of separator material to itself with a seal at a bottom edge of the cathode member. 7. The electrode assembly of claim 1, wherein: the anode current collector extends through the end segment of the elongated strip of alkali metal corresponding to an end segment of the anode assembly that when wound into the coil disposes at least a portion of the anode current collector in the outermost layer of the coil and through at least one inner anode assembly layer of the coil not constituting the innermost layer.8. An assembly according to claim 1, wherein said anode member includes a plurality of perforations over at least a portion of a major surface thereof.9. An assembly according to claim 1, further comprising at least one electrically conductive tab member coupled to a one of the anode member and the current collector.10. An assembly according to claim 9, wherein said at least one electrically conductive tab member comprises two tabs and said two tabs are coupled to a common edge portion of the anode member or the current collector.11. An assembly according to claim 9, wherein said at least one electrically conductive tab member a longitudinal tab dimension comprises and said dimension is approximately equivalent to the longitudinal current collector dimension.12. An assembly according to claim 8, wherein said plurality of perforations of said anode member comprises one of a metallic screen and a metallic grid.13. An assembly according to claim 1, wherein said current collector comprises a nickel material.14. An assembly according to claim 1, wherein said current collector comprises a titanium material.15. An assembly according to claim 1, wherein said current collector includes a height dimension and said height dimension is substantially less than a height dimension of said anode member.16. A coiled electrode assembly, comprising:an elongated, relatively thin lithium anode member having a longitudinal anode length dimension; and an electrically conductive metallic anode current collector coupled to said anode member, said current collector having a longitudinal current collector length dimension wherein said longitudinal current collector dimension is substantially less than the longitudinal anode length dimension, wherein said longitudinal current collector dimension comprises one of about: 5%, 10%, 15%, 20%, and 30% the longitudinal anode length dimension.17. The electrode assembly of claim 16, wherein the anode current collector is formed from at least a one of: a titanium material, a nickel material, a copper material, an alloy of at least a one of the foregoing materials.18. The electrode assembly of claim 16, further comprising a cathode current collector comprising a titanium element.19. The electrode assembly of claim 17, wherein the anode current collector further comprises a perforated element.20. An assembly according to claim 1 or claim 16, wherein said anode member is disposed on the outer wrap or outer layer in a spirally wound electrochemical cell.
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