Electrochemical cell and membranes related thereto

What is claimed is: 1. An electrochemical cell array, comprising: a composite layer having a first side and a second side, the composite layer including two or more electrically conductive components, each electrically conductive component having one or more electrically conductive passageways, wherein the conductive components are formed from a composite material; and one or more dielectric components, each dielectric component having one or more ion-conducting passageways; one or more interface regions; wherein the electrically conductive components and the dielectric components are adjacently arranged; and wherein the interface regions are disposed between adjacent dielectric components and conductive components; and wherein the interface regions are made of electrically non-conductive and ionically non-conductive material that bonds to both the dielectric components and the conductive components and wherein the one or more interface regions each extend through the composite layer from the first side of the composite layer to the second side of the composite layer; and the electrically conductive components, the dielectric components, and the interface regions collectively define a flat first surface and a flat second surface; one or more first coatings in contact with the first side of the composite layer; one or more second coatings in contact with the second side of the composite layer; wherein each first coating is in contact with at least one of the ion-conducting passageways of a first dielectric component and in electrical contact with at least one of the electrically conductive passageways of a first electrically conductive component; wherein each second coating is in contact with at least one of the ion-conducting passageways of a second dielectric component and in electrical contact with the at least one electrically conductive passageway of the first electrically conductive component, sufficient to provide an electrically conductive pathway extending through the composite layer from the first side of the composite layer to the second side of composite layer between adjacent electrochemical cells in the array; and wherein each of the one or more first coatings and each of the one or more second coatings include an edge that extends over a width of one of the interface regions; and a width of the interface region is sufficient to enable an electrical discontinuity to be formed between coatings of adjacent electrochemical cells. 2. The electrochemical cell array of claim 1 , wherein one or both of the first coating and the second coating includes a catalytically active material. 3. The electrochemical cell array of claim 1 , wherein the electrochemical cells comprise fuel cells. 4. An electrochemical system, comprising: the electrochemical cell array of claim 1 ; and one or more fluidic plenums; wherein the one or more fluidic plenums are at least partially defined by the electrochemical cell array. 5. The electrochemical system of claim 4 , wherein the fluidic plenums comprise at least one fuel plenum, at least one oxidant plenum or combinations thereof. 6. The electrochemical system of claim 4 , further comprising a fluidic manifold, coupled to the composite layer. 7. The electrochemical system of claim 6 , wherein at least one of the fluidic plenums is defined by the composite layer, the fluidic manifold, and at least one electrically conductive component. 8. The electrochemical system of claim 1 , wherein the at least one electrically conductive component comprises a composite including carbon and epoxy. 9. The electrochemical system of claim 1 , wherein the interface region comprises a thermoset polymer. 10. The electrochemical system of claim 1 , wherein the dielectric components include a perfluorosulfonic acid copolymer. 11. The electrochemical cell array of claim 1 , wherein the composite layer is flexible. 12. The electrochemical cell array of claim 1 , wherein each of the electrically conductive components comprise a first material and each of the dielectric components comprises a second material and wherein the first and second materials interact. 13. The electrochemical cell array of claim 12 , wherein the first and second materials chemically interact. 14. The electrochemical cell array of claim 12 , wherein the electrically conductive and ion-conducting components physically interact. 15. The electrochemical cell array of claim 1 , wherein the electrically conductive components comprise a metal, a metal foam, a carbonaceous material, a graphite composite, a conductive epoxy, a conductive polymer, a conductive ceramic, carbon fiber, woven carbon cloth, a pultruded composite, expanded graphite, graphite, vitreous carbon, carbon, epoxy, graphite filled epoxies, graphite filled polymers, or combinations thereof. 16. The electrochemical cell array of claim 1 , wherein the electrically conductive passageways extend from a first surface of the composite layer to a second surface of the composite layer. 17. The electrochemical cell array of claim 1 , wherein a width of the interface region is greater than or equal to about 15 micrometers. 18. The electrochemical cell array of claim 1 , wherein a width of the interface region is greater than or equal to about 200 micrometers. 19. The electrochemical cell array of claim 1 , wherein the electrically conductive components and the dielectric components are arranged in substantially parallel strips. 20. The electrochemical cell array of claim 1 , wherein the dielectric components and conductive components are less than or equal to 2 millimeters in width. 21. The electrochemical cell array of claim 1 , wherein the composite layer is substantially fluidically impermeable at a pressure differential of at or below 15 psi. 22. The electrochemical cell array of claim 1 , wherein the composite material includes an additive material that increases a tensile strength, durability, or toughness of the electrically conductive components or alters one or more properties of the electrically conductive components. 23. The electrochemical cell array of claim 22 , wherein the additive material includes carbon fibers. 24. The electrochemical cell array of claim 23 , wherein the carbon fibers extend parallel to a surface of the composite material of the conductive components. 25. The electrochemical cell array of claim 23 , wherein the carbon fibers extend from the first side to the second side. 26. The electrochemical cell array of claim 1 , wherein the composite material includes woven carbon cloth impregnated with an epoxy. 27. The electrochemical cell array of claim 1 , wherein one of the interface regions are in physical contact with one of the first coatings and with one of the second coatings. 28. The electrochemical cell array of claim 1 , wherein the electrically conductive components, dielectric components, and the interface regions collectively define the first side and the second side and wherein the first side is a flat surface opposite the second side. 29. The electrochemical cell array of claim 28 , wherein the second side is a flat surface. 30. The electrochemical cell array of claim 1 wherein each of the electrically conductive components, the dielectric components and the interface regions are arranged as substantially parallel columns which exten