초록 ▼

The present invention relates to an electrochemical cell having a terminal collector plate element that conducts electrical current from the stack. The terminal plate has an electrically conductive region and an electrically non-conductive region of the surface. The non-conductive region is coated w

The present invention relates to an electrochemical cell having a terminal collector plate element that conducts electrical current from the stack. The terminal plate has an electrically conductive region and an electrically non-conductive region of the surface. The non-conductive region is coated with a corrosion resistant coating that comprises either a passivation layer, a corrosion-resistant polymeric layer, or both. Optionally, the conductive region of the terminal plate may be protected from oxidation, by coating with an oxidation-resistant metal layer. The oxidation-resistant layer may be further coated with a conductive oxidation-resistant polymeric layer. Other preferred aspects of the present invention include methods of treating the terminal plate to resist corrosion and oxidation while still maintaining electrical conductivity.

대표청구항 ▼

1. An electrically conductive terminal plate comprising:a body of conductive, corrosion-susceptible material;a surface of said body having an electrically conductive region and an electrically non-conductive region; anda corrosion-resistant layer overlaying said electrically non-conductive region;a

1. An electrically conductive terminal plate comprising:a body of conductive, corrosion-susceptible material;a surface of said body having an electrically conductive region and an electrically non-conductive region; anda corrosion-resistant layer overlaying said electrically non-conductive region;a tab in electrical contact with said body of conductive material underlying said electrically non-conductive region, and an electrically conductive path from said electrically conductive region through said conductive body underlying said electrically non-conductive region to the electrically conductive tab. 2. The terminal plate according to claim 1, wherein said electrically conductive region is centrally located on said surface of the terminal plate and said electrically non-conductive region circumscribes said central region. 3. The terminal plate according to claim 1, wherein said corrosion-resistant layer includes a passivation layer. 4. The terminal plate according to claim 1, wherein said corrosion-resistant layer includes a non-conductive polymeric coating. 5. The terminal plate according to claim 1, wherein said corrosion-resistant layer includes a passivation layer and a non-conductive polymeric coating. 6. The terminal plate according to claim 5, wherein said polymeric coating comprises at least one polymer selected from the group consisting of: epoxies, silicones, polyamide-imides, polyether-imides, polyphenols, fluoroelastomers, polyesters, phenoxy-phenolics, epoxide-phenolyics, acrylics and urethanes. 7. The terminal plate according to claim 1, wherein the terminal plate has at least one aperture through said body in said electrically non-conductive region, and wherein said aperture has a surface overlaid with said corrosion-resistant layer. 8. The terminal plate according to claim 1, wherein said corrosion-resistant layer of the aperture and said corrosion resistant layer of said non-conductive region are essentially continuous. 9. The terminal plate according to claim 1, wherein said body comprises aluminum. 10. The terminal plate according to claim 1, wherein said electrically conductive region is overlaid with a protective coating including a first layer in contact with said surface of said electrically conductive region comprising an oxidation-resistant metal, and a second layer over said first layer, said second layer comprising an oxidation-resistant polymer. 11. The terminal plate according to claim 10, wherein said oxidation-resistant metal comprises nickel, tin, silver, and alloys thereof, and combinations thereof. 12. The terminal plate according to claim 10, wherein said second layer further comprises electrically conductive particles dispersed in said oxidation-resistant polymer. 13. The terminal plate according to claim 12, wherein said electrically conductive particles are selected from a group consisting of: gold, platinum, nickel, palladium, rhodium, niobium, titanium, chromium, rare earth metals, graphite, carbon, compounds and alloys thereof, and mixtures thereof. 14. The terminal plate according to claim 10, wherein said oxidation-resistant polymer is selected from the group consisting of: epoxies, silicones, polyamide-imides, polyether-imides, polyphenols, fluoroelastomers, polyesters, phenoxy-phenolics, epoxide-phenolics, acrylics and urethanes. 15. A terminal plate for collecting current generated across one or more electrochemical cells in a stack, wherein each cell includes a membrane electrode assembly (MEA) sandwiched between a pair of electrically conductive fluid distribution elements, wherein electrical contact is established from the MEA through the conductive distribution elements, wherein the fluid distribution element nearest the terminal plate is in electrical contact with the terminal plate, said terminal plate comprising:a body of conductive and corrosion-resistant material; anda surface of said body having an electrically conductive region in contact with said nearest fluid distri bution element of the plate, and an electrically non-conductive region overlaid by a corrosion-resistant layer;wherein said electrically conductive region is centrally located on said surface of the terminal plate and said electrically non-conductive region circumscribes said central region and defines a peripheral non-conductive region of the plate, thereby electrically isolating the plate from the surrounding environment; anda tab in electrical contact with said body of conductive material underlying said electrically non-conductive region, and an electrically conductive path from said electrically-conductive region through said conductive body underlying said electrically non-conductive region to the electrically conductive tab. 16. The terminal plate according to claim 15, wherein the terminal plate has at least one aperture through said body in said electrically non-conductive region, wherein said aperture is in fluid communication with the plurality of fluid distribution elements, and said aperture has a surface overlaid with said corrosion-resistant layer. 17. The terminal plate according to claim 15, wherein said corrosion-resistant layer includes a passivation layer. 18. The terminal plate according to claim 15, wherein said corrosion-resistant layer includes a non-conductive polymeric coating. 19. The terminal plate according to claim 14, wherein said corrosion-resistant layer includes a passivation layer and a non-conductive polymeric coating. 20. The terminal plate according to claim 19, wherein said polymeric coating comprises at least one polymer selected from the group consisting of: epoxies, silicones, polyamide-imides, polyether-imides, polyphenols, fluoroelastomers, polyesters, phenoxy-phenolics, epoxide-phenolics, acrylics and urethanes. 21. The terminal plate according to claim 15, Wherein said corrosion-resistant layer of the aperture and said corrosion-resistant layer of said non-conductive region are essentially continuous. 22. The terminal plate according to claim 15, wherein said body comprises aluminum. 23. The terminal plate according to claim 15, wherein said electrically conductive region is overlaid with a protective layer including a first layer in contact with said surface of said electrically conductive region comprising an oxidation-resistant metal, and a second layer over said first layer, said second layer comprising an oxidation-resistant polymer. 24. The terminal plate according to claim 23, wherein said oxidation-resistant metal comprises nickel, tin, silver, and alloys thereof, and combinations thereof. 25. The terminal plate according to claim 23, wherein said second layer further comprises electrically conductive particles dispersed in said oxidation-resistant polymer. 26. The terminal plate according to claim 25, wherein said electrically conductive particles are selected from a group consisting of: gold, platinum, nickel, palladium, rhodium, niobium, titanium, chromium, rare earth metals, graphite, carbon, compounds and alloys thereof, and mixtures thereof. 27. The terminal plate according to claim 23, wherein said oxidation-resistant polymer is selected from the group consisting of: epoxies, silicones, polyamide-imides, polyether-imides, polyphenols, fluoroelastomers, polyesters, phenoxy-phenolics, epoxide-phenolyics, acrylics and urethanes.