Lithium electrode for a rechargeable lithium-ion battery and method for the manufacture thereof

What is claimed is: 1. A lithium electrode, comprising: a first lithium layer, which is made up of lithium or a lithium alloy; a current collector situated on a first side of the first lithium layer; a lithium-ion-conducting protective layer situated on a second side of the first lithium layer situated opposite the first side; and an intermediate layer, which completely covers the second side of the first lithium layer, situated between the first lithium layer and the protective layer, both the protective layer and the intermediate layer each having an electrical conductivity of less than 10 −10 S/cm, the intermediate layer having continuous openings extending from the first lithium layer to the protective layer, the continuous openings being filled with the lithium or lithium alloy to provide continuous channels of the lithium or lithium alloy extending from the first lithium layer to the protective layer. 2. The lithium electrode of claim 1 , wherein the intermediate layer has pores. 3. The lithium electrode of claim 1 , wherein at least 10% by volume of the intermediate layer are the continuous openings. 4. The lithium electrode of claim 1 , wherein the continuous openings have a diameter in the range of 10 μm to 1000 μm. 5. The lithium electrode of claim 1 , wherein the intermediate layer is made up of a lithium-ion-conducting material. 6. The lithium electrode of claim 1 , wherein the intermediate layer is made up of a material which is selected from the group including polymers, ceramics and mixtures thereof. 7. The lithium electrode of claim 1 , wherein the intermediate layer has a thickness d in the range of 0.1 μm to 100 μm. 8. A rechargeable lithium-ion battery, comprising: a lithium electrode that is an anode and that includes: a first lithium layer, which is made up of lithium or a lithium alloy; a current collector situated on a first side of the first lithium layer; a lithium-ion-conducting protective layer situated on a second side of the first lithium layer situated opposite the first side; and an intermediate layer, which completely covers the second side of the first lithium layer, situated between the first lithium layer and the protective layer, both the protective layer and the intermediate layer each having an electrical conductivity of less than 10 −10 S/cm, the intermediate layer having continuous openings extending from the first lithium layer to and the protective layer, the continuous openings being filled with the lithium or lithium alloy to provide continuous channels of the lithium or lithium alloy extending from the first lithium layer to the protective layer. 9. A method for manufacturing a lithium electrode, the method comprising: applying a first lithium layer, which is made up of lithium or a lithium alloy, to a current collector; applying an intermediate layer having an electrical conductivity of less than 10 −10 S/cm to the first lithium layer so that the intermediate layer completely covers the first lithium layer; and applying a lithium-ion-conducting protective layer having an electrical conductivity of less than 10 −10 S/cm to the intermediate layer, wherein the intermediate layer has continuous openings extending from the first lithium layer to the protective layer, the continuous openings being filled with the lithium or lithium alloy to provide continuous channels of the lithium or lithium alloy extending from the first lithium layer to the protective layer. 10. The method of claim 9 , further comprising pressing the intermediate layer into the first lithium layer so that the continuous openings are filled with the lithium or lithium alloy. 11. The method of claim 9 , wherein a second lithium layer, which is made up of lithium, is applied to the intermediate layer after the same has been applied to the first lithium layer and before applying the protective layer, and the second lithium layer is electrochemically removed after the protective layer has been applied. 12. The rechargeable lithium-ion battery of claim 8 , further comprising: a cathode including an active cathode material and a cathode current collector; a separator between the anode and cathode; and a liquid electrolyte between the anode and cathode. 13. The lithium electrode of claim 1 , wherein the current collector includes copper. 14. The lithium electrode of claim 1 , wherein the first lithium layer includes a lithium foil. 15. The lithium electrode of claim 1 , wherein the intermediate layer includes a sheet of material including a cross-linked poly-acrylate. 16. A method of manufacturing a rechargeable lithium-ion battery, comprising: the method for manufacturing the lithium electrode of claim 9 ; providing a cathode including an active cathode material and a cathode current collector; providing a separator between the anode and cathode; and providing a liquid electrolyte between the anode and cathode.