Cooling plate for lithium-ion battery pack

What is claimed is: 1. A battery pack, comprising: a plurality of battery cells disposed in a stack; and a plurality of cooling plates disposed in the stack in heat transfer communication with the battery cells, each cooling plate including: a cooling fin; a frame coupled at a perimeter of the cooling fin by a first seal and a second seal, the first seal positioned outwardly of the second seal; a flow channel defined between the first seal and the second seal extending entirely about the perimeter of the cooling fin; and a planar surface of the cooling fin located entirely inward of the second seal, the flow channel completely surrounding the planar surface, the planar surface configured to directly contact a planar surface of one of the battery cells of the battery pack so the planar surface of the one of the battery cells is also positioned entirely inward of the second seal, wherein the flow channel also surrounds the battery cell without directly contacting the battery cell. 2. The battery pack of claim 1 , wherein each of the plurality of battery cells is in contact with one of the cooling plates. 3. The battery pack of claim 2 , wherein each of the plurality of battery cells in contact with one of the cooling plates exhibits a substantially uniform pressure distribution across the area of the contact. 4. The battery pack of claim 1 , wherein the plurality of battery cells includes a first battery cell and a second battery cell, and the plurality of cooling plates includes a first cooling plate and a second cooling plate, the battery pack including a spacer disposed between the first battery cell and the second battery cell. 5. The battery pack of claim 4 , wherein the first battery cell, the spacer, and the second battery cell are sandwiched between the first cooling plate and the second cooling plate, the first cooling plate contacting the first battery cell and the second cooling plate contacting the second battery cell. 6. The battery pack of claim 4 , wherein the first cooling plate, the first battery cell, the spacer, and the second battery cell are disposed within a repeating frame assembly, the repeating frame assembly being one of a plurality of repeating frame assemblies configured to hold and align the plurality of battery cells and the plurality of cooling plates in the stack to form the battery pack. 7. The battery pack of claim 6 , wherein each of the cooling plates includes a pair of manifold apertures that cooperate with a pair of manifold apertures formed in the repeating frame assemblies to define manifolds for transport of the fluid to the fluid inlet of the cooling plate and transport of the fluid away from the fluid outlet of the cooling plate. 8. The battery pack of claim 7 , wherein the pair of manifold apertures of the each of the cooling plates is formed in outwardly extending ears disposed on opposite sides of the cooling plate. 9. The battery pack of claim 1 , wherein the frame includes an opening formed in the center thereof. 10. A battery pack, comprising: a plurality of battery cells disposed in a stack; and a plurality of cooling plates, the cooling plates comprising; a cooling fin; a frame coupled at a perimeter of the cooling fin by a first seal and a second seal, the first seal positioned outwardly of the second seal; a flow channel defined between the first seal and the second seal extending entirely about the perimeter of the cooling fin; and a planar surface of the cooling fin located entirely inward of the second seal, the flow channel completely surrounding the planar surface, the planar surface configured to directly contact a planar surface of one of the battery cells of the battery pack so the planar surface of the one of the battery cells is also positioned entirely inward of the second seal, wherein the flow channel also surrounds the battery cell without directly contacting the battery cell. 11. The battery pack of claim 10 , wherein the frame is coupled at the perimeter by a first seal and a second seal, the first seal positioned outwardly of the second seal, and wherein the flow channel is defined between the first seal and the second seal. 12. The battery pack of claim 10 , wherein each of the plurality of battery cells is in contact with one of the cooling plates. 13. The battery pack of claim 12 , wherein each of the plurality of battery cells in contact with one of the cooling plates exhibits a substantially uniform pressure distribution across the area of the contact. 14. The battery pack of claim 10 , wherein the plurality of battery cells includes a first battery cell and a second battery cell, and the plurality of cooling plates includes a first cooling plate and a second cooling plate, the battery pack including a spacer disposed between the first battery cell and the second battery cell. 15. The battery pack of claim 14 , wherein the first battery cell, the spacer, and the second battery cell are sandwiched between the first cooling plate and the second cooling plate, the first cooling plate contacting the first battery cell and the second cooling plate contacting the second battery cell. 16. The battery pack of claim 14 , wherein the first cooling plate, the first battery cell, the spacer, and the second battery cell are disposed within a repeating frame assembly, the repeating frame assembly one of a plurality of repeating frame assemblies configured to hold and align the plurality of battery cells and the plurality of cooling plates in the stack to form the battery pack. 17. The battery pack of claim 16 , wherein each of the cooling plates includes a pair of manifold apertures that cooperate with a pair of manifold apertures formed in the repeating frame assemblies to define manifolds for transport of a fluid to the fluid inlet of the cooling plate and transport of the fluid away from the fluid outlet of the cooling plate. 18. The battery pack of claim 17 , wherein the pair of manifold apertures of each of the cooling plates is formed in outwardly extending ears disposed on opposite sides of the cooling plate. 19. The battery pack of claim 10 , wherein the frame includes an opening formed in the center thereof. 20. A method for controlling a temperature of a battery pack having a plurality of battery cells, the method comprising the steps of: providing a cooling plate including: a cooling fin; a frame coupled at a perimeter of the cooling fin by a first seal and a second seal, the first seal positioned outwardly of the second seal; a flow channel defined between the first seal and the second seal extending entirely about the perimeter of the cooling fin; and a planar surface of the cooling fin located entirely inward of the second seal, the flow channel completely surrounding the planar surface, the planar surface configured to directly contact a planar surface of one of the battery cells of the battery pack so the planar surface of the one of the battery cells is also positioned entirely inward of the second seal, wherein the flow channel also surrounds the battery cell without directly contacting the battery cell; disposing the substantially planar surface on each side of the cooling fin of the cooling plate adjacent one of the battery cells, the substantially planar surface on each side of the cooling fin of the cooling plate contacting the one of the battery cells; supplying a fluid to the at least one fluid inlet; circulating the fluid through the flow channel of the cooling plate to exchange heat from the one of the battery cells th