Bipolar plate having a polymeric coating

What is claimed is: 1. A bipolar plate for an electrochemical cell, comprising: a metal frame and a base; and a polymeric coating applied to all surfaces of the metal frame; wherein a first portion of the polymeric coating applied to a first surface of the metal frame is configured to contact the base and a second portion of the polymeric coating applied to a second surface of the metal frame opposite the first surface is configured to contact a second base of an adjacent bipolar plate. 2. The bipolar plate of claim 1 , wherein the polymeric coating is an electrical insulator within the electrochemical cell. 3. The bipolar plate of claim 1 , wherein the polymeric coating forms a seal within the electrochemical cell when compressed. 4. The bipolar plate of claim 1 , wherein the polymeric coating is a corrosion protection layer. 5. The bipolar plate of claim 1 , wherein the polymeric coating is at least two of the following: an electrical insulator of the electrochemical cell; a seal within the electrochemical cell; and a corrosion protection layer. 6. The bipolar plate of claim 1 , wherein the polymeric coating is: an electrical insulator of the electrochemical cell; a seal within the electrochemical cell; and a corrosion protection layer. 7. The bipolar plate of claim 1 , wherein the polymeric coating includes fluoropolymers and reinforcing binders. 8. The bipolar plate of claim 3 , wherein the seal forms by compressing the bipolar plate to a pressure greater than or equal to the yield strength of the polymeric coating. 9. The bipolar plate of claim 8 , wherein the bipolar plate and the polymeric coating are compressed at least to between about 4,000 psi to about 15,000 psi. 10. The bipolar plate of claim 1 , wherein the polymeric coating ranges from about 0.005 inches to about 0.0015 inches thick. 11. A bipolar plate of an electrochemical cell, consisting essentially of: a metal frame and a base; and a polymeric coating applied to all surfaces of the metal frame; wherein a first portion of the polymeric coating applied to a first surface of the metal frame is configured to contact the base and a second portion of the polymeric coating applied to a second surface of the metal frame opposite the first surface is configured to contact a second base of an adjacent bipolar plate; wherein the polymeric coating is: an electrical insulator of the electrochemical cell; a seal of the electrochemical cell; and a corrosion protection layer. 12. The bipolar plate of claim 11 , wherein the polymeric coating forms the seal when the frame and the base are compressed, thereby compressing the polymeric coating to a pressure greater than or equal to the yield strength of the polymeric coating. 13. The bipolar plate of claim 12 , wherein the bipolar plate and the polymeric coating are compressed at least to between about 4,000 psi to about 15,000 psi. 14. The bipolar plate for an electrochemical cell of claim 1 , wherein the frame defines a void configured to contain a membrane electrode assembly of the electrochemical cell; and wherein the membrane electrode assembly is contained within the void and enclosed by the base of the bipolar plate and the second base of the adjacent bipolar plate. 15. The bipolar plate for an electrochemical cell of claim 1 , wherein the polymeric coating is applied to a surface of the base contacting the metal frame. 16. An electrochemical cell comprising, a membrane electrode assembly, wherein the membrane electrode assembly comprises an anode, a cathode, and a proton exchanger membrane disposed therebetween; a first bipolar plate comprising a metal frame and a first base, wherein the frame defines a void configured to contain the membrane electrode assembly; and a polymeric coating applied to all surfaces of the metal frame; wherein the membrane electrode assembly is contained within the void and enclosed by the first base of the first bipolar plate and a second base of a second bipolar plate adjacent the first bipolar plate; wherein a first portion of the polymeric coating applied to a first surface of the metal frame is configured to contact the first base and a second portion of the polymeric coating applied to a second surface of the metal frame opposite the first surface is configured to contact the second base of the second bipolar plate adjacent the first bipolar plate.