Electrochemical stack and method of assembly thereof

What is claimed is: 1. An electrochemical stack assembly comprising: one or more electrochemical cells, each electrochemical cell comprising a solid-state electrolyte to form a first electrochemical stack with two major surfaces and four minor surfaces; a frame surrounding the first electrochemical stack with space between the frame and each of the four minor surfaces, the frame comprising a center wall integral with the frame, one of the two major surfaces in contact with the center wall; and a laminated pouch surrounding the frame and the electrochemical stack, the laminated pouch in contact with the other of the two major surfaces. 2. The electrochemical stack assembly of claim 1 , further comprising an adhesive to adhere the center wall to one of the two major surfaces. 3. The electrochemical stack assembly of claim 2 , wherein the adhesive comprises a pressure sensitive adhesive. 4. The electrochemical stack assembly of claim 1 , wherein the center wall comprises a thermally conductive material. 5. The electrochemical stack assembly of claim 1 , further comprising at least one positive electrode terminal and at least one negative electrode terminal. 6. The electrochemical stack assembly of claim 1 , wherein the frame is at one of a negative or a positive electrical potential. 7. The electrochemical stack assembly of claim 1 , further comprising an insulating material to insulate the frame. 8. The electrochemical stack assembly of claim 1 , wherein the frame comprises material selected from the group consisting of plastic, plastic with thermal additives, rubber, ceramic, clay, glass, tempered glass, thermoplastics, carbon fiber, metal-plastic composites, aluminum, anodized aluminum, magnesium, magnesium-copper alloy, or aluminum-copper alloy, or combinations thereof. 9. The electrochemical stack assembly of claim 1 , wherein the space between the frame and the four minor surfaces of the first electrochemical stack prevents the application of force by the laminated pouch to the four minor surfaces during charge and discharge cycles of the first electrochemical stack and thereby prevents deforming, cracking, or otherwise damaging the first electrochemical stack. 10. The electrochemical stack assembly of claim 1 , wherein the space between the frame and the first electrochemical stack provides space for the first electrochemical stack to expand and contract during a charge and discharge cycle without deforming, cracking, or otherwise damaging the first electrochemical stack. 11. The electrochemical stack assembly of claim 1 , wherein an interior of the laminated pouch is under vacuum to put the laminated pouch in contact with the other major surface. 12. The electrochemical stack assembly of claim 1 , wherein the laminated pouch provides about 20% of expansion and contraction in a direction normal to at least one of the two major surfaces. 13. The electrochemical stack assembly of claim 1 , wherein a distribution of pressure across the two major surfaces is uniform across a surface area of 10 mm 2 , 20 mm 2 , 30 mm 2 , 10 cm 2 , 20 cm 2 , 30 cm 2 , 10 m 2 , 20 m 2 , or 30 m 2 . 14. The electrochemical stack assembly of claim 1 , wherein the laminated pouch conforms around the frame. 15. The electrochemical stack assembly of claim 1 , wherein the laminated pouch retains its shape when an interior of the laminated pouch is under vacuum. 16. The electrochemical stack assembly of claim 1 , wherein the laminated pouch is sealed and an interior of the laminated pouch is under vacuum. 17. The electrochemical stack assembly of claim 1 , wherein the laminated pouch applies 78 pounds of force per unit area on the two major surfaces of the electrochemical stack. 18. The electrochemical stack assembly of claim 16 , wherein the vacuum provides up to 14.7 pounds per square inch (PSI) of atmospheric pressure on the two major surfaces of the electrochemical stack. 19. The electrochemical stack assembly of claim 1 , wherein the laminated pouch comprises a pair of laminate forms with facing surfaces forming a seam, the facing surfaces being bonded with a seal at the seam. 20. The electrochemical stack assembly of claim 16 , wherein the vacuum in the laminated pouch is less than 10 Torr.