Device and methods for sealing and encapsulation for biocompatible energization elements

What is claimed is: 1. A biomedical device comprising: a. an electroactive element, wherein the electroactive element undergoes a physical or chemical change in response to an electrical signal; b. a circuit; c. a biocompatible energization element, wherein the biocompatible energizing element comprises: a first and second current collector, i. a cathode, ii. an anode, iii. an electrolyte, iv. a laminar stack structure comprising a first and a second laminar construct release layers; and first and second laminar construct adhesive layers located between the first and second laminar construct release layers; and a laminar construct core located between the first and second laminar construct adhesive layers, and v. a first encapsulation for the energization element, wherein the first encapsulation is a polymer film capable of sealing, wherein the polymer film capable of sealing is treated to form a seal with itself and with elements of the biocompatible energization element; and d. a second encapsulation that encapsulates the electroactive element, the circuit, and the biocompatible energization element. 2. The biomedical device of claim 1 wherein the laminar stack structure comprises a cavity structure. 3. The biomedical device of claim 1 wherein the polymer film capable of sealing comprises polypropylene. 4. The biomedical device of claim 1 wherein the polymer film capable of sealing is treated by a means of welding. 5. The biomedical device of claim 4 wherein the polymer film capable of sealing is further adhered to the biocompatible energization element with adhesive. 6. The biomedical device of claim 4 wherein the polymer film capable of sealing is welded to a separator contained within the biocompatible energization element. 7. The biomedical device of claim 4 wherein the polymer film capable of sealing is welded to a separator shelf contained within the biocompatible energization element. 8. The biomedical device of claim 4 wherein the polymer film capable of sealing is welded to a current collector of the biocompatible energization element. 9. The biomedical device of claim 8 wherein the biomedical device is an ophthalmic device. 10. The biomedical device of claim 9 wherein the ophthalmic device is a contact lens. 11. The biomedical device of claim 8 wherein biomedical device is a surgical device. 12. The biomedical device of claim 1 wherein the circuit comprises an integrated circuit. 13. The biomedical device of claim 1 wherein the second encapsulation comprises a hydrogel. 14. A biomedical device comprising: a. a circuit; b. a biocompatible energization element, wherein the biocompatible energizing element comprises: a first and second current collector, i. a cathode, ii. an anode, iii. an electrolyte, iv. a laminar stack structure comprising at least a portion of the cathode, the anode, the electrolyte, and a separator formed at least in part from a UV-curable hydrogel formulation wherein the separator forms a barrier between the cathode and the anode, and v. a first encapsulation for the energization element, wherein the first encapsulation is a polymer film capable of sealing, wherein the polymer film capable of sealing is treated to form a seal with itself and with elements of the biocompatible energization element; and c. a second encapsulation that encapsulates the electroactive element, the circuit, and the biocompatible energization element. 15. The biomedical device of claim 14 wherein the laminar stack structure comprises a cavity structure. 16. The biomedical device of claim 14 wherein the polymer film capable of sealing comprises polypropylene. 17. The biomedical device of claim 14 wherein the polymer film capable of sealing is treated by a means of welding. 18. The biomedical device of claim 17 wherein the polymer film capable of sealing is further adhered to the biocompatible energization element with adhesive. 19. The biomedical device of claim 17 wherein the polymer film capable of sealing is welded to a separator contained within the biocompatible energization element. 20. The biomedical device of claim 17 wherein the polymer film capable of sealing is welded to a separator shelf contained within the biocompatible energization element.