Expandable conductive tab for stacked electrode battery cell

What is claimed is: 1 . A battery cell comprising: a first electrode stack and a second electrode stack, each having at least one pair of anode and cathode elements; a battery cell container defining an internal chamber configured to house the first and second electrode stacks and having externally mounted first and second battery terminals; a first electrically conductive tab arranged within the internal chamber, mechanically connected to the first battery terminal, fixedly connected to each anode element in the first and second electrode stacks, and having a first expandable portion arranged between the first and second electrode stacks; and a second electrically conductive tab arranged within the internal chamber, mechanically connected to the second battery terminal, fixedly connected to each cathode element in the first and second electrode stacks, and having a second expandable portion arranged between the first and second electrode stacks; wherein each of the first and second expandable portions is configured to absorb alternating expansion and contraction of the first and second electrode stacks when the battery cell is respectively charging and discharging. 2 . The battery cell of claim 1 , wherein the battery cell container is arranged along a longitudinal battery axis and constructed from one of a rigid and a pliant material. 3 . The battery cell of claim 2 , wherein the battery cell container is constructed from the rigid material and the battery cell is one of a cylindrical and prismatic cell. 4 . The battery cell of claim 2 , wherein the battery cell container is constructed from the pliant material and the battery cell is a pouch cell. 5 . The battery cell of claim 2 , wherein each of the first and second electrically conductive tabs and each of the first and second expandable portions is arranged parallel to the longitudinal battery axis. 6 . The battery cell of claim 2 , wherein each of the first and second electrically conductive tabs and each of the first and second expandable portions is arranged perpendicular to the longitudinal battery axis. 7 . The battery cell of claim 1 , further comprising at least one spring element arranged between the first and second electrode stacks and configured to accommodate expansion of the first and second electrode stacks inside the battery cell container. 8 . The battery cell of claim 7 , further comprising a first support plate disposed adjacent to the first electrode stack and a second support plate disposed adjacent to the second electrode stack, and wherein the at least one spring element is arranged between the first and second support plates. 9 . The battery cell of claim 1 , wherein the battery cell container has an interior surface, and wherein the first electrically conductive tab and the second electrically conductive tab are disposed in a region of the internal chamber between the first and second electrode stacks and the interior surface, the battery cell further comprising a separation bracket disposed in the region between the first and second electrode stacks and the interior surface and configured to maintain separation between the first electrically conductive tab and the second electrically conductive tab. 10 . The battery cell of claim 1 , wherein the battery cell is a lithium-ion cell. 11 . A lithium-ion battery cell comprising: a first electrode stack and a second electrode stack, each having at least one pair of anode and cathode elements; a battery cell container defining an internal chamber configured to house the first and second electrode stacks and having externally mounted first and second battery terminals; a first electrically conductive tab arranged within the internal chamber, mechanically connected to the first battery terminal, fixedly connected to each anode element in the first and second electrode stacks, and having a first expandable portion arranged between the first and second electrode stacks; and a second electrically conductive tab arranged within the internal chamber, mechanically connected to the second battery terminal, fixedly connected to each cathode element in the first and second electrode stacks, and having a second expandable portion arranged between the first and second electrode stacks; wherein each of the first and second expandable portions is configured to absorb alternating expansion and contraction of the first and second electrode stacks when the battery cell is respectively charging and discharging. 12 . The lithium-ion battery cell of claim 11 , wherein the battery cell container is arranged along a longitudinal battery axis and constructed from one of a rigid and a pliant material. 13 . The lithium-ion battery cell of claim 12 , wherein the battery cell container is constructed from the rigid material and the battery cell is one of a cylindrical and prismatic cell. 14 . The lithium-ion battery cell of claim 12 , wherein the battery cell container is constructed from the pliant material and the battery cell is a pouch cell. 15 . The lithium-ion battery cell of claim 12 , wherein each of the first and second electrically conductive tabs and each of the first and second expandable portions is arranged parallel to the longitudinal battery axis. 16 . The lithium-ion battery cell of claim 12 , wherein each of the first and second electrically conductive tabs and each of the first and second expandable portions is arranged perpendicular to the longitudinal battery axis. 17 . The lithium-ion battery cell of claim 11 , further comprising at least one spring element arranged between the first and second electrode stacks and configured to accommodate expansion of the first and second electrode stacks inside the battery cell container. 18 . The lithium-ion battery cell of claim 17 , further comprising a first support plate disposed adjacent to the first electrode stack and a second support plate disposed adjacent to the second electrode stack, and wherein the at least one spring element is arranged between the first and second support plates. 19 . The lithium-ion battery cell of claim 11 , wherein the battery cell container has an interior surface, and wherein the first electrically conductive tab and the second electrically conductive tab are disposed in a region of the internal chamber between the first and second electrode stacks and the interior surface, the battery cell further comprising a separation bracket disposed in the region between the first and second electrode stacks and the interior surface and configured to maintain separation between the first electrically conductive tab and the second electrically conductive tab. 20 . A lithium-ion battery cell comprising: a first electrode stack and a second electrode stack, each having at least one pair of anode and cathode elements; a battery cell container arranged along a longitudinal battery axis and defining an internal chamber configured to house the first and second electrode stacks and having externally mounted first and second battery terminals; a first electrically conductive tab arranged within the internal chamber, mechanically connected to the first battery terminal, fixedly connected to each anode element in the first and second electrode stacks, and having a first expandable portion arranged between the first and second electrode stacks; a second electrically conductive tab arranged within the internal chamber, mechanically connected to the second battery terminal, fixedly connected to each cathode elem