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A subgasket for a fuel cell is provided. The subgasket includes a barrier layer having an elongate primary seal formed thereon. The seal has at least one inwardly extending baffle adapted to militate against a reactant bypass flow in the fuel cell. A fuel cell and fuel cell stack having the subgaske

A subgasket for a fuel cell is provided. The subgasket includes a barrier layer having an elongate primary seal formed thereon. The seal has at least one inwardly extending baffle adapted to militate against a reactant bypass flow in the fuel cell. A fuel cell and fuel cell stack having the subgasket are also provided.

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1. A subgasket for a fuel cell having an active region and a feed region, comprising: a barrier layer:an elongate primary seal formed on the barrier layer, the seal circumscribing the active region and the feed region of the fuel cell and having a plurality of baffles adapted to militate against any

1. A subgasket for a fuel cell having an active region and a feed region, comprising: a barrier layer:an elongate primary seal formed on the barrier layer, the seal circumscribing the active region and the feed region of the fuel cell and having a plurality of baffles adapted to militate against any reactant bypass flow in the fuel cell,wherein the baffles are integrally formed with the primary seal, and each of the baffles is an elongate finger having a secured first end connected to the primary seal and a free second end extending laterally inwardly from the primary seal toward the active region and the feed region of the fuel cell. 2. The subgasket of claim 1, wherein the primary seal is a substantially elongate bead disposed on the barrier layer. 3. The subgasket of claim 1, wherein at least one of the barrier layer and one of the baffles is canted in relation to the primary seal. 4. The subgasket of claim 3, wherein the one of the baffles has a leg adapted to cant the one of the baffles to a desired angle. 5. The subgasket of claim 1, wherein one of the baffles extends inwardly further than another of the baffles. 6. The subgasket of claim 1, wherein the baffles are disposed on one of a first side and a second side of the barrier layer. 7. The subgasket of claim 1, wherein a first portion of the baffles is disposed on a first side of the barrier layer and a second portion of the baffles is disposed on a second side of the barrier layer. 8. The subgasket of claim 7, wherein the first portion of baffles is staggered in relation to the second portion of baffles. 9. The subgasket of claim 1, wherein the primary seal is asymmetric and adapted to bias the barrier layer in a desired direction. 10. The subgasket of claim 9, wherein the asymmetric primary seal is a double bead seal with a first bead and a second bead, the first bead taller than the second bead. 11. A fuel cell, comprising: a pair of fuel cell plates defining an active region and a feed region of the fuel cell;an electrolyte membrane disposed between the pair of fuel cell plates adjacent the active region, the electrolyte membrane sandwiched between an anode and a cathode;a pair of gas diffusion media disposed between the electrolyte membrane and the fuel cell plates; anda subgasket disposed between the pair of fuel cell plates and adjacent the feed region, the subgasket including a barrier layer having an elongate primary seal formed thereon, the seal having a plurality of inwardly extending baffles adapted to militate against any reactant bypass flow between the seal and the gas diffusion media, wherein the baffles are integrally formed with the primary seal, and each of the baffles is an elongate finger having a secured first end connected to the primary seal and a free second end extending laterally inwardly from the primary seal toward the active region and the feed region of the fuel cell. 12. The fuel cell of claim 11, wherein the barrier layer is coupled with the electrolyte membrane. 13. The fuel cell of claim 11, wherein the baffles contact the gas diffusion media. 14. The fuel cell of claim 13, wherein the baffles are at least one of crushed, buckled, bent, and folded. 15. The fuel cell of claim 11, wherein the barrier layer is canted toward one of the anode side and the cathode side of the electrolyte membrane. 16. The fuel cell of claim 11, wherein the gas diffusion media includes notches formed therein that receive the baffles. 17. A fuel cell stack comprising: a plurality of fuel cells arranged in a stack, at least one of the fuel cells further comprising a pair of fuel cell plates defining an active region and a feed region of the fuel cell;an electrolyte membrane disposed between the pair of fuel cell plates adjacent the active region, the electrolyte membrane sandwiched between an anode and a cathode;a pair of gas diffusion media disposed between the electrolyte membrane and the fuel cell plates; anda subgasket disposed between the pair of fuel cell plates and adjacent the feed region, the subgasket including a barrier layer having an elongate primary seal formed thereon, the seal having a plurality of inwardly extending baffles adapted to militate against any reactant bypass flow between the seal and the gas diffusion media, wherein the baffles are integrally formed with the primary seal, and each of the baffles is an elongate finger having a secured first end connected to the primary seal and a free second end extending laterally inwardly from the primary seal toward the active region and the feed region of the fuel cell.