High capacity secondary battery

What is claimed is: 1. A secondary battery in which a plurality of unit cells is stacked on each other, wherein each of the plurality of unit cells comprises: first and second collector layers, which are spaced apart from each other and extend in first and second directions; and a 3-dimensional electrode structure provided between the first and second collector layers in a third direction perpendicular to the first and second directions and including an insulating material such that an outer side surface of the 3-dimensional electrode structure that is externally exposed in the first and second directions is electrically insulated by the insulating material, the 3-dimensional electrode structure comprising: a solid electrolyte film including the insulating material and having at least two heights in the third direction, wherein, a first collector layer of the first collector layers has a size larger than a maximum size of the 3-dimensional electrode structure in a direction parallel to a main extension direction of a second collector layer of the second collector layers, and in the plurality of unit cells, the first collector layers are stacked to face each other and the second collector layers are stacked to face each other. 2. The secondary battery of claim 1 , wherein the 3-dimensional electrode structure comprises: a plurality of first active material layers extending perpendicularly on the first collector layer of the first collector layers such that the solid electrolyte film is provided on the plurality of first active material layers; and a second active material layer provided on the solid electrolyte film and exposing an outer side surface of the solid electrolyte film. 3. The secondary battery of claim 1 , wherein the 3-dimensional electrode structure comprises: a plurality of first active material layers extending perpendicularly on the first collector layer of the first collector layers such that the solid electrolyte film is provided on the plurality of first active material layers; a second active material layer provided on the solid electrolyte film; and an insulating layer provided on an outer side surface of the second active material layer. 4. The secondary battery of claim 1 , wherein the second collector layer of the second collector layers has a size equal to or smaller than that of the 3-dimensional electrode structure. 5. The secondary battery of claim 1 , wherein each of the plurality of unit cells further comprises: a first lead wire extending from the first collector layer of the first collector layers; and a second lead wire extending from the second collector layer of the second collector layers. 6. The secondary battery of claim 5 , wherein a first insulating member is provided at a portion of the first lead wire, which is connected to the first collector layer, and a second insulating member is provided at a portion of the second lead wire, which is connected to the second collector layer. 7. The secondary battery of claim 1 , further comprising at least one binding member winding the plurality of unit cells that are stacked on each other to fix and support the plurality of unit cells. 8. The secondary battery of claim 1 , wherein the first collector layers of adjacent unit cells of the plurality of unit cells, which face each other, are unitary, and the second collector layers of the adjacent unit cells, which face each other, are unitary. 9. The secondary battery of claim 1 , wherein the second collector layer of the second collector layers comprises a metal foil attached to the 3-dimensional electrode structure. 10. A secondary battery in which a plurality of unit cells is stacked on each other, wherein each of the plurality of unit cells comprises: first and second collector layers, which are spaced apart from each other; and a 3-dimensional electrode structure provided between the first and second collector layers, wherein a second collector layer of the second collector layers has a size smaller than that of the 3-dimensional electrode structure in a direction parallel to a main extension direction of the second collector layer, wherein a first collector layer of the first collector layers has a size larger than a maximum size of the 3-dimensional electrode structure in the direction parallel to the main extension direction of the second collector layer, and in the plurality of unit cells, the first collector layers are stacked to face each other and the second collector layers are stacked to face each other. 11. The secondary battery of claim 10 , wherein the 3-dimensional electrode structure is provided such that an outer side surface that is externally exposed is insulated. 12. The secondary battery of claim 11 , wherein the 3-dimensional electrode structure comprises: a plurality of first active material layers extending perpendicularly on the first collector layer such that a solid electrolyte film is provided on the plurality of first active material layers; and a second active material layer provided on the solid electrolyte film and exposing an outer surface of the solid electrolyte film. 13. The secondary battery of claim 11 , wherein the 3-dimensional electrode structure comprises: a plurality of first active material layers extending perpendicularly on the first collector layer such that a solid electrolyte film is provided on the plurality of first active material layers; a second active material layer provided on the solid electrolyte film; and an insulating layer provided on a side outer surface of the second active material layer. 14. The secondary battery of claim 10 , wherein each of the plurality of unit cells further comprises: a first lead wire extending from the first collector layer of the first collector layers; and a second lead wire extending from the second collector layer. 15. The secondary battery of claim 14 , wherein a first insulating member is provided at a portion of the first lead wire, which is connected to the first collector layer, and a second insulating member is provided at a portion of the second lead wire, which is connected to the second collector layer. 16. The secondary battery of claim 10 , further comprising at least one binding member winding around the plurality of unit cells that are stacked on each other to fix and support the plurality of unit cells. 17. The secondary battery of claim 10 , wherein the first collector layers of adjacent unit cells the plurality of unit cells, which face each other, are unitary, and the second collector layers of the adjacent unit cells, which face each other, are unitary. 18. The secondary battery of claim 10 , wherein the second collector layer comprises a metal foil attached to the 3-dimensional electrode structure. 19. A unit cell of a secondary battery, the unit cell comprising: first and second collector layers, which are spaced apart from each other and extend in first and second directions; and a 3-dimensional electrode structure provided between the first and second collector layers in a third direction perpendicular to the first and second directions and including an insulating material such that an outer side surface of the 3-dimensional electrode structure that is externally exposed in the first and second directions is electrically insulated by the insulating material, the 3-dimensional electrode structure comprising: a solid electrolyte film including the insulating material and having at least two heights in the third direction, wherein a first collector layer of the f