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An electrochemical cell includes a first electrode, a second electrode, a proton exchange membrane disposed between and in intimate contact with the electrodes, and a pressure pad disposed in electrical communication with the first electrode. The pressure pad is an electrically conductive sheet and

An electrochemical cell includes a first electrode, a second electrode, a proton exchange membrane disposed between and in intimate contact with the electrodes, and a pressure pad disposed in electrical communication with the first electrode. The pressure pad is an electrically conductive sheet and is of a structure that is conformable to pressure variations within the cell. Methods of forming the pressure pad include disposing dimples or corrugations at the electrically conductive member. A method of maintaining compression within the cell includes disposing the electrically conductive member and the compression member at the first electrode, applying a load at the cell to compress the cell components, and maintaining electrical communication through the electrically conductive member.

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What is claimed is: 1. A resilient pressure pad for an electrochemical cell, the pressure pad comprising: an electrically conductive planar member; a plurality of electrically conductive dimples disposed at a first surface of the planar member, the dimples being configured to impart resilience to t

What is claimed is: 1. A resilient pressure pad for an electrochemical cell, the pressure pad comprising: an electrically conductive planar member; a plurality of electrically conductive dimples disposed at a first surface of the planar member, the dimples being configured to impart resilience to the pressure pad in response to pressure variations within the cell; and an elastomeric member threaded through the dimples. 2. The pressure pad of claim 1 wherein the dimples are semi-spherical in geometry. 3. The pressure pad of claim 2 wherein the dimples each comprise a stress point, the stress point defining a point at which the dimples collapse under pressure. 4. The pressure pad of claim 1 wherein the dimples are frusto-pyramidical in geometry. 5. The pressure pad of claim 1 wherein the elastomeric member is a fluorosilicone, a fluoroelastomer, or a combination thereof. 6. The pressure pad of claim 1 wherein the electrically conductive planar member is copper, silver, gold, chromium, zirconium, tantalum, titanium, niobium, iron, nickel, cobalt, hafnium, tungsten, alloys thereof, electrically conductive carbon, electrically conductive polymer, or combinations of the foregoing materials. 7. The pressure pad of claim 1 wherein the pressure pad is disposed in fluid communication with an electrode in the electrochemical cell. 8. A resilient pressure pad disposed in fluid communication with an electrode in an electrochemical cell, the pressure pad comprising: an electrically conductive corrugated member; and an elastomeric member threaded transversely through raised portions in the corrugated member. 9. The pressure pad of claim 8 wherein the elastomeric member is electrically conductive. 10. The pressure pad of claim 8 wherein the electrically conductive corrugated member is copper, silver, gold, chromium, zirconium, tantalum, titanium, niobium, iron, nickel, cobalt, hafnium, tungsten, alloys thereof, electrically conductive carbon, an electrically conductive polymeric material, or a combination of the foregoing materials. 11. The pressure pad of claim 8 wherein the elastomeric member is a fluorosilicone, a fluoroelastomer, or a combination thereof.