Bipolar all solid-state battery

What is claimed is: 1 . A bipolar all solid-state battery comprising a unit cell including: a first current collector having a first surface and a second surface opposite to the first surface; a first active material coated on the first surface of the first current collector; a second current collector having a first surface and a second surface opposite to the first surface; a second active material coated on the first surface of the second current collector and facing the first active material; and an all solid-state electrolyte formed between the first active material and the second active material, wherein when a plurality of the unit cells are stacked, the first current collector and the second current collector are connected to each other through surface contact. 2 . The bipolar all solid-state battery of claim 1 , wherein the first current collector is made of aluminum or an aluminum alloy. 3 . The bipolar all solid-state battery of claim 1 , wherein the second current collector is made of copper or a copper alloy. 4 . The bipolar all solid-state battery of claim 1 , wherein the first current collector and the second current collector are made of stainless steel (SUS), nickel or a nickel alloy. 5 . The bipolar all solid-state battery of claim 1 , further comprising an adhesive or paste formed on at least one surface of at least one of the first current collector and the second current collector, the adhesive or paste including a metal selected from the group consisting of platinum, silver, gold and nickel. 6 . The bipolar all solid-state battery of claim 1 , wherein the first current collector is configured to have a larger area than the second current collector. 7 . The bipolar all solid-state battery of claim 1 , wherein the all solid-state electrolyte is configured to have a larger area than the first and second current collectors. 8 . The bipolar all solid-state battery of claim 1 , further comprising an insulation film formed on boundaries between the first current collector and the second current collector when the unit cells are stacked. 9 . The bipolar all solid-state battery of claim 8 , wherein the insulation film includes one selected from the group consisting of polyimide (Pl), polyethylene (PE) and polypropylene (PP). 10 . The bipolar all solid-state battery of claim 8 , wherein the insulation film includes a throughhole formed therein to expose the first current collector and the second current collector being in surface contact. 11 . The bipolar all solid-state battery of claim 8 , wherein the insulation film includes styrene butadiene rubber (SBR) coated on at least one of its top and bottom surfaces to then be attached to at least one of the first current collector and the second current collector. 12 . The bipolar all solid-state battery of claim 1 , wherein surface treatment is performed on at least one of the second surface of the first current collector and the second surface of the second current collector. 13 . A bipolar all solid-state battery comprising a unit cell including: a bipolar current collector having a first surface and a second surface opposite to the first surface; a first active material coated on the first surface of the bipolar current collector; a second active material coated on the second surface of the bipolar current collector; and an all solid-state electrolyte formed between the first active material and the second active material, wherein the second active material is formed by attaching a lithium foil to the second surface of the bipolar current collector. 14 . The bipolar all solid-state battery of claim 13 , wherein the bipolar current collector is made of stainless steel (SUS), nickel, a nickel alloy or a clad metal of aluminum and copper. 15 . The bipolar all solid-state battery of claim 13 , wherein the first active material is configured to have a larger area than the second active material. 16 . The bipolar all solid-state battery of claim 13 , wherein the all solid-state electrolyte is configured to have a larger area than the first and second active materials. 17 . The bipolar all solid-state battery of claim 13 , further comprising an insulation film formed on a top surface of the bipolar current collector to surround the second active material. 18 . The bipolar all solid-state battery of claim 17 , wherein the insulation film includes one selected from the group consisting of polyimide (Pl), polyethylene (PE) and polypropylene (PP). 19 . A method of manufacturing a bipolar all solid-state battery, the method comprising: providing a bipolar current collector structure by winding the bipolar current collector on a roll, the bipolar current collector including a first active material formed on its first surface and a second active material formed on its second surface; providing an all solid-state electrolyte structure by winding the all solid-state electrolyte on a separate roll to; and supplying the bipolar current collector structure and the all solid-state electrolyte structure between two rotating rollers and compressing the supplied structures using the rollers. 20 . The method of claim 19 , wherein the second active material is formed by attaching a lithium foil to the second surface of the bipolar current collector.