Free floating battery cell assembly techniques for lithium ion battery module

The invention claimed is: 1. A lithium ion battery module system, comprising: a battery module housing; a plurality of prismatic battery cells positioned within the battery module housing in a floating arrangement, wherein each prismatic battery cell of the plurality of prismatic battery cells comprises cell terminals positioned at a first casing portion, a second casing portion positioned opposite the first casing portion, first and second sides extending between the first and second casing portions, and first and second faces connecting the first and second sides, the first and second faces being opposite one another, wherein a thickness of each prismatic battery cell is defined by a distance between the first and second faces, wherein the floating arrangement includes respective gaps between first and second faces of adjacent cells of the plurality of prismatic battery cells; and wherein each prismatic battery cell of the plurality of prismatic battery cells is substantially non-swellable and comprises a respective state of charge, and wherein the respective states of charge vary by at least 20% and the respective thicknesses vary by no more than 5% across the plurality of prismatic battery cells. 2. The lithium ion battery module system of claim 1 , wherein the battery module housing and the plurality of prismatic battery cells are a part of a partially assembled lithium ion battery module. 3. The lithium ion battery module system of claim 2 , wherein the plurality of prismatic battery cells comprise lithium titanate (LTO) as an anode active material. 4. The lithium ion battery module system of claim 3 , wherein the plurality of prismatic battery cells comprise LiNi 1/3 Mn 1/3 Co 1/3 O 2 (NMC) as a cathode active material. 5. The lithium ion battery module of claim 4 , wherein the plurality of prismatic battery cells comprise LiCoO 2 (LCO) as a cathode active material. 6. The lithium ion battery module system of claim 2 , wherein the plurality of prismatic battery cells are not electrically connected. 7. The lithium ion battery module system of claim 2 , wherein the partially assembled lithium ion battery module does not comprise control and regulation circuitry to balance the charge of the plurality of prismatic battery cells. 8. The lithium ion battery module system of claim 1 , wherein each prismatic battery cell of the plurality of prismatic battery cells is substantially non-swellable in that each prismatic battery cell swells by no more than 5% in any direction, and wherein each prismatic battery cell of the plurality of prismatic battery cells has a respective cell thickness within 5% of a standardized thickness. 9. The lithium ion battery module system of claim 1 , wherein the floating arrangement includes an arrangement having each battery cell of the plurality of prismatic battery cells being suspended within the battery module housing. 10. The lithium ion battery module system of claim 1 , wherein the respective thicknesses varying by no more than 5% across the plurality of prismatic battery cells enables the respective gaps between the first and second faces of adjacent cells of the plurality of prismatic battery cells. 11. The lithium ion battery module system of claim 1 , wherein the floating arrangement includes the plurality of prismatic battery cells being unclamped to one another. 12. The lithium ion battery module system of claim 1 , wherein the floating arrangement includes the plurality of prismatic battery cells being in an uncompressed state. 13. The lithium ion battery module system of claim 1 , wherein the floating arrangement includes no opposing normal forces placed on the first and second faces of adjacent cells of the plurality of prismatic battery cells, resulting in active areas of the plurality of prismatic battery cells remaining in a substantially uncompressed state. 14. The lithium ion battery module system of claim 1 , wherein each gap of the respective gaps include an air gap. 15. The lithium ion battery module system of claim 1 , wherein each gap of the respective gaps include a layer. 16. The lithium ion battery module system of claim 15 , wherein the layer is selected from the group consisting of a structural support layer, a padding layer, a thermal interface layer, a spacer, and an electrical isolation layer.