Electrode assembly, secondary battery, and method of manufacture

1 .- 52 . (canceled) 53 . A secondary battery for cycling between a charged and a discharged state, the secondary battery comprising an electrode assembly, carrier ions, an electrode busbar, and a counter-electrode busbar, wherein: the electrode assembly comprises a population of electrode structures, a population of electrode current collectors, a population of separators, a population of counter-electrode structures, and a population of counter-electrode collectors wherein: members of the electrode structure population and members of the counter-electrode structure population are arranged in an alternating sequence along a longitudinal axis; the electrode busbar comprises at least one conductive segment configured to electrically connect to the population of electrode current collectors, wherein: the at least one conductive segment of the electrode busbar extends along the longitudinal axis; and the at least one conductive segment of the electrode busbar is arranged with respect to the population of electrode current collectors such that the electrode current collectors extend at least partially past a thickness of the conductive segment of the electrode busbar, to electrically connect thereto; and the counter-electrode busbar comprises at least one conductive segment configured to electrically connect to the population of counter-electrode current collectors, wherein: the at least one conductive segment of the counter-electrode busbar extends along the longitudinal axis; and the at least one conductive segment of the counter-electrode busbar is arranged with respect to the population of counter-electrode current collectors such that the counter-electrode current collectors extend at least partially past a thickness of the conductive segment of the counter-electrode busbar, to electrically connect thereto. 54 . The secondary battery according to claim 53 , wherein each electrode structure of the population of electrode structures comprises an electrode active material layer and each counter-electrode structure of the population of counter-electrode structures comprises a counter-electrode active material layer. 55 . The secondary battery according to claim 53 , wherein each separator of the population of separators are ionically permeable to carrier ions. 56 . The secondary battery according to claim 53 , wherein the secondary battery further comprises a battery enclosure and wherein the electrode assembly is within the battery enclosure. 57 . The secondary battery according to claim 54 , wherein the electrode assembly has mutually perpendicular transverse, longitudinal and vertical axes corresponding to the x, y and z axes, respectively, of an imaginary three-dimensional cartesian coordinate system. 58 . The secondary battery according to claim 57 , wherein each electrode active material layer has a length L E that corresponds to the Feret diameter of the electrode active material layer as measured in the transverse direction between first and second opposing transverse end surfaces of the electrode active material layer, and a height H E that corresponds to the Feret diameter of the electrode active material layer as measured in the vertical direction between first and second opposing vertical end surfaces of the electrode active material layer, and a width W E that corresponds to the Feret diameter of the electrode active material layer as measured in the longitudinal direction between first and second opposing surfaces of the electrode active material layer. 59 . The secondary battery according to claim 57 , wherein each counter-electrode active material layer has a length L C that corresponds to the Feret diameter of the counter-electrode active material layer as measured in the transverse direction between first and second opposing transverse end surfaces of the counter-electrode active material layer, and a height H C that corresponds to the Feret diameter of the counter-electrode active material layer as measured in the vertical direction between first and second opposing vertical end surfaces of the counter-electrode active material layer, and a width W C that corresponds to the Feret diameter of the counter-electrode active material layer as measured in the longitudinal direction between first and second opposing surfaces of the counter-electrode active material layer. 60 . The secondary battery according to claim 57 , wherein the electrode assembly further comprises a population of unit cells wherein each unit cell comprises a unit cell portion of an electrode current collector of the population of electrode current collectors, a unit cell portion of an electrode of the population of electrodes, a unit cell portion of a separator of the population of separators, a unit cell portion of a counter-electrode of the population of counter-electrodes, and a unit cell portion of a counter-electrode current collector of the population of counter-electrode current collectors. 61 . The secondary battery according to claim 60 , wherein the unit cell portion of the electrode current collector extends at least partially along a length of the unit cell portion of the electrode in the transverse direction. 62 . The secondary battery according to claim 60 , wherein the unit cell portion of the electrode current collector comprises an electrode current collector end that extends past a first transverse end surface of the unit cell portion of the counter-electrode. 63 . The secondary battery according to claim 60 , wherein the unit cell portion of the counter-electrode current collector extends at least partially along a length of the unit cell portion of the counter-electrode in the transverse direction. 64 . The secondary battery according to claim 60 , wherein the unit cell portion of the counter-electrode current collector comprises a counter-electrode current collector end that extends past a second transverse end surface of the unit cell portion of the electrode. 65 . The secondary battery according to claim 59 , wherein the at least one conductive segment of the electrode busbar comprises a first side having an interior surface facing the first transverse end surfaces of each counter-electrode active material layer, and an opposing second side having an exterior surface. 66 . The secondary battery according to claim 53 , wherein the at least one conductive segment of the electrode busbar comprises a plurality of apertures spaced apart along the longitudinal direction. 67 . The secondary battery according to claim 65 , wherein a thickness of the at least one conductive segment of the electrode busbar is measured between the interior and exterior surfaces. 68 . The secondary battery according to claim 58 , wherein the at least one conductive segment of the counter-electrode busbar comprises a first side having an interior surface facing the second transverse end surfaces of each electrode active material layer, and an opposing second side having an exterior surface. 69 . The secondary battery according to claim 53 , wherein the at least one conductive segment of the counter-electrode busbar comprises a plurality of apertures spaced apart along the longitudinal direction. 70 . The secondary battery according to claim 68 , wherein a thickness of the at least one conductive segment of the counter-electrode busbar is measured between the interior and exterior surfaces. 71 . The secondary battery according to claim 53 , further comprising a set of electrode constraints, wherein the set of electrode co