Electrode assembly and polymer secondary battery cell including 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 such that each radical unit is disposed in direct contact with an adjacent radical unit, 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 such that each radical unit is disposed in direct contact with an adjacent radical unit according to the 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, a first auxiliary unit disposed on at least one among an uppermost part or a lowermost part of the cell stack part; and 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 a coating layer is only disposed between adjacent radical units that adheres the adjacent radical units to each other in the cell stack part, the coating layer having an adhesive strength that differs from a delamination strength between the respective electrodes and separators in each of the adjacent radical units, wherein the coating layer is disposed on an outer surface of a separator included in at least one of the adjacent radical units and is formed of a mixture of inorganic particles and a binder polymer that binds and fixes the inorganic particles to each other. 2. A method of manufacturing an electrode assembly, the method comprising: a first step of forming one kind of a radical unit having an alternately stacked structure of a same number of electrodes and separators, or at least two kinds of radical units having an alternately stacked structure of a same number of electrodes and separators; a second step of forming a cell stack part by repeatedly stacking the one kind of the radical units such that each radical unit is disposed in direct contact with an adjacent radical unit, or by stacking the at least two kinds of the radical units in a predetermined order such that each radical unit is disposed in direct contact with an adjacent radical unit according to the predetermined order; and a third step of stacking a first auxiliary unit on at least one among an uppermost part or a lowermost part of the cell stack part, wherein the one kind of radical unit 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 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 a coating layer is only disposed between adjacent radical units that adheres the adjacent radical units to each other in the cell stack part, the coating layer having an adhesive strength that differs from a delamination strength between the respective electrodes and separators in each of the adjacent radical units, wherein the coating layer is disposed on an outer surface of a separator included in at least one of the adjacent radical units and is formed of a mixture of inorganic particles and a binder polymer that binds and fixes the inorganic particles to each other.