Electrode assembly and lithium battery comprising same

The invention claimed is: 1. A stacked electrode assembly, comprising; a first electrode at a first portion of the stacked electrode assembly, the first electrode being a negative electrode and including a negative electrode active material, wherein the first electrode includes a first mesh electrode current collector, and a second mesh electrode current collector, and a third mesh electrode current collector in the thickness direction of the first electrode, the first mesh electrode current collector is interposed between the second mesh electrode current collector and the third mesh electrode current collector, and the second and third mesh electrode current collectors have openings at different locations or have different aperture ratios from the first mesh electrode current collector; a second electrode at a second portion of the stacked electrode assembly; a unit stacked body between the first electrode and the second electrode; a first separator between the first electrode and the unit stacked body; and a second separator between the unit stacked body and the second electrode, wherein: the unit stacked body includes a first positive electrode, a first negative electrode, and a third separator, the third separator being between the first positive electrode and the first negative electrode, and the first mesh electrode current collector is spaced apart from the second mesh electrode current collector in a thickness direction of the first electrode. 2. The stacked electrode assembly of claim 1 , wherein the second electrode further includes a third mesh electrode current collector and a fourth mesh electrode current collector, the third mesh electrode current collector being spaced apart from the fourth mesh electrode current collector in a thickness direction of the second electrode. 3. The stacked electrode assembly of claim 1 , wherein the first electrode includes the negative electrode active material located on one side of the first mesh electrode current collector. 4. The stacked electrode assembly of claim 1 , wherein the first electrode includes the negative electrode active material located on two opposite sides of the second mesh electrode current collector. 5. The stacked electrode assembly of claim 1 , wherein the first electrode has an asymmetric shape in which a thickness of the negative electrode active material located on one side thereof is different from a thickness of the negative electrode active material located on another side thereof. 6. The stacked electrode assembly of claim 1 , wherein the first electrode includes the negative electrode active material located inside an opening of each of the first mesh electrode current collector and the second mesh electrode current collector. 7. The stacked electrode assembly of claim 1 , wherein the first mesh electrode current collector has openings at different locations from openings in the second mesh electrode current collector. 8. The stacked electrode assembly of claim 1 , wherein the first mesh electrode current collector has a different aperture ratio from an aperture ratio of the second mesh electrode current collector. 9. The stacked electrode assembly of claim 1 , wherein, in the unit stacked body, the first positive electrode and the first negative electrode each include a non-porous electrode current collector and an electrode active material arranged on at least one side of the non-porous electrode current collector. 10. The stacked electrode assembly of claim 1 , wherein the unit stacked body has a bi-cell structure stacked in a sequence of one of: the first negative electrode, the third separator, the first positive electrode, a fourth separator, and a second negative electrode, or the first positive electrode, the third separator, the first negative electrode, a fourth separator, and a second positive electrode. 11. The stacked electrode assembly of claim 1 , wherein the first mesh electrode current collector and the second mesh electrode current collector each have a metal mesh shape in which a plurality of openings are arranged two-dimensionally. 12. The stacked electrode assembly of claim 1 , wherein the first mesh electrode current collector and the second mesh electrode current collector each include at least one of Al, Ti, V, Cr, Mn, Fe, Co, Ni, Cu, Zn, Zr, Nb, Ag, W, Pt, stainless steel, or a combination thereof. 13. The stacked electrode assembly of claim 1 , wherein the first mesh electrode current collector and the second mesh electrode current collector each have a thickness of 10 μm to 500 μm. 14. The stacked electrode assembly of claim 3 , wherein a number of openings (ppi) of the first mesh electrode current collector is 30 or more per inch, or an aperture ratio of the first mesh electrode current collector is 40% or less. 15. The stacked electrode assembly of claim 4 , wherein a number of openings (ppi) of the second mesh electrode current collector is 30 or less per inch, or an aperture ratio of the second mesh electrode current collector is 40% or more. 16. A lithium battery comprising: the stacked electrode assembly according to claim 1 . 17. A stacked electrode assembly, comprising; a first electrode at a first portion of the stacked electrode assembly; a second electrode at a second portion of the stacked electrode assembly; a unit stacked body between the first electrode and the second electrode; a first separator between the first electrode and the unit stacked body; and a second separator between the unit stacked body and the second electrode, wherein: the unit stacked body includes a first positive electrode, a first negative electrode, and a third separator, the third separator being between the first positive electrode and the first negative electrode, the first electrode includes a first mesh electrode current collector and a second mesh electrode current collector, the first mesh electrode current collector being spaced apart from the second mesh electrode current collector in a thickness direction of the first electrode, the first electrode includes a third mesh electrode current collector, which is spaced apart from each of the first mesh electrode current collector and the second mesh electrode current collector in the thickness direction of the first electrode, the first mesh electrode current collector is interposed between the second mesh electrode current collector and the third mesh electrode current collector, and the second and third mesh electrode current collectors have openings at different locations or have different aperture ratios from the first mesh electrode current collector.