초록 ▼

An electrochemical cell structure has an electrical current-carrying structure which, at least in part, underlies an electrochemical reaction layer. The cell comprises an ion exchange membrane with a catalyst layer on each side thereof. The ion exchange membrane may comprise, for example, a proton e

An electrochemical cell structure has an electrical current-carrying structure which, at least in part, underlies an electrochemical reaction layer. The cell comprises an ion exchange membrane with a catalyst layer on each side thereof. The ion exchange membrane may comprise, for example, a proton exchange membrane. Some embodiments of the invention provide electrochemical cell layers which have a plurality of individual unit cells formed on a sheet of ion exchange membrane material.

대표청구항 ▼

1. A fuel cell comprising: two or more substrate components;an ion exchange membrane having at least two edges, and at least two of the edges in contact with at least a portion of one of the substrate components;two electrochemical reaction layers located on opposite sides of the ion exchange membra

1. A fuel cell comprising: two or more substrate components;an ion exchange membrane having at least two edges, and at least two of the edges in contact with at least a portion of one of the substrate components;two electrochemical reaction layers located on opposite sides of the ion exchange membrane, each electrochemical reaction layer having an inner surface at least partially in contact with the ion exchange membrane and an outer surface opposite the inner surface;two or more current-carrying structures, each current-carrying structure having at least one contact portion in electrical contact with an associated one of the electrochemical reaction layers and at least a portion of each current-carrying structure located inwardly from the inner surface of the associated electrochemical layer, wherein each current-carrying structure is substantially embedded in at least one substrate component. 2. The fuel cell of claim 1 wherein the contact portion of at least one of the current-carrying structures is in direct electrical contact with the associated electrochemical reaction layer. 3. The fuel cell of claim 2 wherein the contact portion of at least one of the current-carrying structures is in direct physical contact with the associated electrochemical reaction layer. 4. The fuel cell of claim 1 wherein at least one of the current-carrying structures is positioned entirely inwardly from the outer surface of the associated electrochemical reaction layer. 5. The fuel cell of claim 4 wherein at least one of the current-carrying structures is positioned entirely inwardly from the inner surface of the associated electrochemical reaction layer. 6. The fuel cell of claim 1 wherein at least one of the electrochemical reaction layers is permeable to a reactant and comprises a catalyst. 7. The fuel cell of claim 1 wherein at least one of the substrate components is electrically non-conductive, ionicaliy nonconductive, or combinations thereof. 8. The fuel cell of claim 1 comprising two substrate components and wherein the ion exchange membrane comprises an ion conducting material deposited in an opening between the two substrate components. 9. The fuel cell of claim 1 wherein the ion exchange membrane comprises an ion conducting material deposited between adjacent substrate components. 10. The fuel cell of claim 1 comprising: at least two electrically insulating areas; andwherein each electrochemical reaction layer has at least two edges, and at least two of edges are in contact with one of the at least two electrically insulating areas. 11. The fuel cell of claim 10 wherein the electrically insulating area is an air gap. 12. The fuel cell of claim 1 wherein the fuel cell has a thickness in the range of 5 to 900 micrometers. 13. The fuel cell of claim 1 further comprising a filter layer positioned on the outer surface of at least one of the electrochemical reaction layers. 14. A fuel cell layer comprising; a plurality of substrate components;a plurality of ion exchange membrane components, each membrane component having at least two edges, and at least two of the edges are in contact with an adjacent substrate component;a plurality of first electrochemical reaction layers located on a first side of the ion exchange membrane components and a plurality of second electrochemical reaction layers located on a second side of the ion exchange membrane components, each electrochemical reaction layer having an inner surface at least partially in contact with an associated one of the ion exchange membrane components and an outer surface opposite the inner surface;a plurality of insulating areas, each insulating area disposed between adjacent first electrochemical reaction layers or adjacent second electrochemical reaction layers or both; anda plurality of current-carrying structures, wherein each current-carrying structure has at least one contact portion in electrical contact with one of the electrochemical reaction layers associated with a first ion exchange membrane component and at least one contact portion in electrical contact with one of the electrochemical reaction layers associated with a second ion exchange membrane component and is located substantially inward from the electrochemical reaction layers, and wherein each current-carrying structure is at least partially embedded in at least one substrate component,sufficient to form a plurality of electrically connected unit fuel cells. 15. The fuel cell layer of claim 14 wherein the contact portions of each current-carrying structure are in direct electrical contact with the associated electrochemical reaction layers. 16. The fuel cell layer of claim 15 wherein the contact portions of each current-carrying structure are in direct physical contact with the associated electrochemical reaction layers. 17. The fuel cell layer of claim 14 wherein each current-carrying structure is positioned entirely inwardly from the outer surface of the associated electrochemical reaction layers. 18. The fuel cell of claim 17 wherein each current-carrying structure is positioned entirely inwardly from the inner surface of the associated electrochemical reaction layers. 19. The fuel cell layer of claim 14 wherein the electrochemical reaction layers are permeable to a reactant and comprise a catalyst. 20. The fuel cell layer of claim 14 wherein at least one of the substrate components is electrically non-conductive, ionically non-conductive, or combinations thereof. 21. The fuel cell layer of claim 14 wherein each ion exchange membrane component comprises an ion conducting material deposited in an opening between adjacent substrate components. 22. The fuel cell layer of claim 14, wherein the ion exchange membrane components comprise a sheet of non-ion conductive material selectively treated to form ion-conducting regions. 23. The fuel cell layer of claim 14 wherein the electrically insulating areas are air gaps. 24. The fuel cell layer of claim 14 wherein the ion exchange membranes have thicknesses in the range of 5 to 250 micrometers. 25. The fuel cell layer of claim 14 comprising one or more filters positioned on the outer surface of the first electrochemical reaction layers or the outer surface of the second electrochemical reaction layers. 26. The fuel cell layer of claim 14 wherein the plurality of unit fuel cells are arranged in a regular array. 27. The fuel cell layer of claim 14 wherein the plurality of unit fuel cells are electrically connected in parallel. 28. The fuel cell layer of claim 14 wherein the plurality of unit fuel cells are electrically connected in series. 29. The fuel cell layer of claim 14 wherein the plurality of unit fuel cells comprise two or more groups of unit fuel cells electrically connected in series, the groups being electrically connected in parallel. 30. A fuel cell layer comprising; two or more electrically connected fuel cell units, each unit including: one or more substrate components;an ion exchange membrane component, the membrane component having at least two edges, and each of the at least two edges is in contact with an adjacent substrate component;an anode catalyst layer and cathode catalyst layer, each located on opposing sides of the ion exchange membrane component, each layer having an inner surface at least partially in contact with the ion exchange membrane components and an outer surface opposite the inner surface;a plurality of insulating areas, each insulating area disposed between adjacent anode or cathode catalyst layers of different cell units, sufficient to electrically insulate adjacent reaction layers; anda plurality of current-carrying structures, wherein each current-carrying structure has at least one contact portion in electrical contact with an anode or cathode catalyst layer of one cell unit and an anode or cathode catalyst layer of a different, but adjacent cell unit; andwherein each current-carrying structure is located inwardly from the associated catalyst layers, and each current-carrying structure is at least partially embedded in at least one substrate component. 31. The fuel cell of claim 1 wherein the substrate components are constructed from electrically non-conducting materials. 32. The fuel cell of claim 14 wherein the substrate components are constructed from electrically non-conducting materials. 33. The fuel cell of claim 30 wherein the substrate components are constructed from electrically non-conducting materials. 34. The fuel cell of claim 1 wherein the fuel cell includes a plurality of unit fuel cells, wherein one of the cells includes the ion exchange membrane and at least two of the substrate components including a first substrate component and a second substrate component and wherein the ion exchange membrane contacts both the first and second substrate components. 35. The fuel cell layer of claim 14, wherein one or more of the ion exchange membrane components are in contact with two different substrate components. 36. The fuel cell layer of claim 30, wherein one of the fuel cell units includes an ion exchange membrane component that is in contact with at least two different substrate components.