Electrode assembly with improved stability and method of manufacturing the same

What is claimed is: 1 . An electrode assembly, comprising: a cell stack part having (a) a structure in which one kind of radical unit is repeatedly disposed, the one kind of radical unit having same number of electrodes and separators which are alternately disposed and integrally combined, or (b) a structure in which at least two kinds of radical units are disposed in a predetermined order, the at least two kinds of radical units each having same number of electrodes and separators which are alternately disposed and integrally combined; wherein the one kind of radical unit of (a) has a four-layered structure in which a first electrode, a first separator, a second electrode and a second separator are sequentially stacked together or a repeating structure in which the four-layered structure is repeatedly stacked; wherein each of the at least two kinds of radical units of (b) are stacked by ones in the predetermined order to form the four-layered structure or the repeating structure in which the four-layered structure is repeatedly stacked, wherein the separator has a larger size than the electrode to expose an edge part of the separator to the outside of the electrode and the separator; wherein the edge parts of the separators included in one radical unit are attached to each other to form a sealing part, or the edge parts of the separators included in the cell stack part are attached to each other to form the sealing part, and wherein adhesive strength between the electrode and the adjacent separator in the radical unit is greater than adhesive strength between the radical units in the cell stack part. 2 . The electrode assembly of claim 1 , further comprising a separator additionally stacked on an uppermost or lowermost electrode of the cell stack part. 3 . The electrode assembly of claim 1 , wherein the sealing part is formed by placing the edge parts of adjacent separators to meet each other and by applying heat and pressure. 4 . The electrode assembly of claim 3 , wherein an applying time of the heat and the pressure to the edge parts of the adjacent separators to form the sealing part is 3 to 5 seconds. 5 . The electrode assembly of claim 3 , wherein the pressure applied to the edge parts of the adjacent separators to form the sealing part is smaller than a pressure applied to attach the electrode to the separator in each of the radical units. 6 . The electrode assembly of claim 1 , wherein the one kind of radical unit of (a) comprises a first radical unit having the four-layered structure or the repeating structure in which the four-layered structure is repeatedly stacked, and wherein the cell stack part has a structure in which the first radical units are repeatedly disposed. 7 . The electrode assembly of claim 1 , wherein the at least two kinds of radical units of (b) comprises: a second radical unit having the first electrode, the first separator, the second electrode, the second separator, the first electrode, and the first separator, which are sequentially disposed and integrally combined; and a third radical unit having the second electrode, the second separator, the first electrode, the first separator, the second electrode, and the second separator, which are sequentially disposed and integrally combined, and wherein the cell stack part has a structure in which the second radical unit and the third radical unit are alternately disposed. 8 . The electrode assembly of claim 1 , wherein the one kind of radical unit is provided in plurality and the plurality of one kind of radical units is classified into at least two groups having different sizes, and wherein the cell stack part has a structure in which a plurality of steps is formed by stacking the one kind of radical units of (a) according to the size thereof. 9 . The electrode assembly of claim 1 , wherein the one kind of radical unit of (a) is provided in plurality and the plurality of the one kind of radical units is classified into at least two groups having different geometric shapes, and wherein the cell stack part has a structure in which a plurality of steps is formed by stacking the one kind of radical units of (a) according to the geometric shape thereof. 10 . The electrode assembly of claim 1 , wherein the electrode is attached to an adjacent separator in each radical unit. 11 . The electrode assembly of claim 10 , wherein an entire surface of the electrode facing the adjacent separator is attached to the adjacent separator. 12 . The electrode assembly of claim 10 , wherein the attachment between the electrode and the separator is provided by applying pressure to the electrode and the adjacent separator or by applying pressure and heat to the electrode and the adjacent separator. 13 . The electrode assembly of claim 10 , wherein the separator comprises a porous separator base material and a porous coating layer that is applied to an entire surface of one side or both sides of the separator base material, wherein the porous coating layer comprises a mixture of inorganic particles and a binder polymer, wherein the binder polymer binds and fixes the inorganic particles to each other, and wherein the electrode is attached to the adjacent separator by the coating layer. 14 . The electrode assembly of claim 13 , wherein the inorganic particles of the porous coating layer have a densely packed structure to form interstitial volumes between the inorganic particles over the overall coating layer, and wherein a pore structure is formed in the coating layer by the interstitial volumes that are defined by the inorganic particles. 15 . The electrode assembly of claim 1 , wherein the cell stack part further comprises a first auxiliary unit stacked on a terminal electrode that is an uppermost or a lowermost electrode, wherein, when the terminal electrode is a cathode, the first auxiliary unit is formed by stacking from the terminal electrode, a separator, an anode, a separator, and a cathode in sequence, and wherein, when the terminal electrode is an anode, the first auxiliary unit is formed by stacking from the terminal electrode, a separator and a cathode in sequence. 16 . The electrode assembly of claim 15 , wherein the cathode of the first auxiliary unit comprises: a current collector; and an active material coated on only one side facing the radical unit among both sides of the current collector. 17 . The electrode assembly of claim 1 , wherein the cell stack part further comprises a second auxiliary unit on a terminal separator that is an uppermost or a lowermost separator, wherein, when the electrode contacting the terminal separator is a cathode in the radical unit, the second auxiliary unit is formed by stacking from the terminal separator, an anode, a separator and a cathode in sequence, and wherein, when the electrode contacting the terminal separator is an anode in the radical unit, the second auxiliary unit is formed as a cathode. 18 . The electrode assembly of claim 17 , wherein the cathode of the second auxiliary unit comprises: a current collector; and an active material coated on only one side facing the radical unit among both sides of the current collector. 19 . The electrode assembly of claim 1 , wherein the cell stack part further comprises a first auxiliary unit stacked on a terminal electrode disposed on an uppermost or a lowermost electrode, wherein, when the terminal electrode is a cathode, the first auxiliary unit is formed by stacking from the terminal electrode, a se