초록 ▼

The Invention provides a zinc-air cell comprising at least one zinc-incorporating structure, at least one oxygen evolving structure and at least one air electrode; wherein said zinc-air cell comprises a first pair of electrodes for the charging of said air cell, said electrode pair comprising said a

The Invention provides a zinc-air cell comprising at least one zinc-incorporating structure, at least one oxygen evolving structure and at least one air electrode; wherein said zinc-air cell comprises a first pair of electrodes for the charging of said air cell, said electrode pair comprising said at least one zinc-incorporating structure and said at least one oxygen evolving structure; and wherein said zinc-air cell comprises a second pair of electrodes for the discharging of said air cell, said electrode pair comprising said at least one zinc-incorporating structure and said at least one air electrode.

대표청구항 ▼

1. A rechargeable zinc-air cell comprising at least one zinc-incorporating structure, at least one oxygen evolving structure and at least one air electrode, with a common electrolyte; wherein said at least one zinc-incorporating structure is used for zinc plating and said at least one oxygen evolvin

1. A rechargeable zinc-air cell comprising at least one zinc-incorporating structure, at least one oxygen evolving structure and at least one air electrode, with a common electrolyte; wherein said at least one zinc-incorporating structure is used for zinc plating and said at least one oxygen evolving structure is used for oxygen evolution during charging of said zinc-air cell,wherein said at least one zinc-incorporating structure is used as the anode and said at least one air electrode is used as a cathode for discharging of said zinc-air cell,and wherein the zinc dendrite growth direction on charge is configured to be in a different direction than the direction towards the air electrode; andwherein a plane in which said at least one zinc-incorporating structure is disposed and a plane in which said at least one oxygen evolving structure is disposed are positioned at an angle of about 90 degrees with respect to a plane in which said at least one air electrode is disposed. 2. The rechargeable zinc-air cell of claim 1, wherein said at least one zinc-incorporating structure is positioned substantially between two of said oxygen-evolving structures and wherein said at least one zinc-incorporating structure and said two oxygen-evolving structures are positioned perpendicular to said two of said air electrodes and wherein said at least one zinc-incorporating structure and said two oxygen-evolving structures are positioned substantially parallel to each other. 3. The rechargeable zinc-air cell of claim 1, wherein said oxygen-evolving structure comprises at least one hydrophobic oxygen evolving electrode(s) arranged such that a pocket is created within or between said porous hydrophobic oxygen evolving electrode(s), which pocket approximates a liquid-free oxygen evolution conduit. 4. The rechargeable zinc-air cell of claim 1, wherein said zinc-air cell comprises an array of alternating zinc-incorporating structures and oxygen evolving structures and wherein said alternating zinc-incorporating structures are positioned substantially parallel to said oxygen evolving structures. 5. The rechargeable zinc-air cell of claim 4, wherein said array further comprises an insulating tie bar attached to a terminus of said zinc-incorporating structures, an insulating tie bar attached to a terminus of said oxygen evolving structures or a combination thereof. 6. The rechargeable zinc-air cell of claim 1, wherein said at least one zinc-incorporating structure and said at least one oxygen evolving structure comprise, independently, a strip, a rod, a wire, a plate, a bar, a foam, a mesh, a fiber or a foil. 7. The rechargeable zinc-air cell of claim 1, wherein said zinc-incorporating structures, and said oxygen evolving structures, independently, are porous. 8. The rechargeable zinc-air cell of claim 1, wherein said oxygen evolving structures incorporate or are coated with a catalyst facilitating oxygen evolution. 9. The rechargeable zinc-air cell of claim 1, wherein said zinc-incorporating structures, said oxygen evolving structures or a combination thereof comprise a material stable on charge or discharge when subjected to an environment containing alkaline electrolyte. 10. The rechargeable zinc-air cell of claim 9, wherein said material is nickel, steel, stainless steel, carbon, copper, graphite or titanium optionally coated with nickel. 11. The rechargeable zinc-air cell of claim 9, wherein said zinc-incorporating structures are preloaded with zinc. 12. The rechargeable zinc-air cell of claim 1, wherein said zinc incorporating structure comprises a conductive substrate supporting a zinc coating or a zinc plating. 13. The zinc-air cell of claim 1, wherein said zinc-incorporating structure(s) are connected to one electrical terminus, said oxygen evolving structure(s) are connected to one electrical terminus and said air electrode(s) are connected to one electrical terminus. 14. The rechargeable zinc-air cell of claim 1, wherein said at least one zinc-incorporating structure is partially open, porous or perforated. 15. The rechargeable zinc-air cell of claim 1, wherein separators are inserted between any of said structures. 16. A method of operating the zinc-air cell according to claim 1, said method comprising: a. electrically-contacting said zinc-incorporating structure(s) and said air electrode(s) to provide for discharge of said cell;b. electrically-disconnecting said zinc-incorporating structure(s) and said air electrode(s) to stop discharge of said cell;c. electrically-contacting said zinc-incorporating structure(s) and said oxygen-evolving structure(s) to provide for charging of said cell; andd. electrically-disconnecting said zinc-incorporating structure(s) and said oxygen-evolving structure(s) to stop charging of said cell.