Membrane with increased durability from partial ion exchange

What is claimed is: 1. An ion exchange membrane for a fuel cell, the ion exchange membrane comprising a polymer having an acid functional group normally including H + ions, and having alkali metal ions partially ion-exchanged with the H + ions of the acid functional group of the ion exchange membrane to provide a patterning of the alkali metal ion exchange across a planar area of the ion exchange membrane such that the partial ion exchange of alkali metal ions is for a portion of the planar area of the ion exchange membrane that is less than the entirety. 2. The ion exchange membrane of claim 1 wherein the alkali metal ions are from the group consisting of: Li + , Na + , K + , Rb + , and Cs + . 3. The ion exchange membrane of claim 2 wherein the alkali metal ions are Na + . 4. The ion exchange membrane of claim 1 wherein the acid functional group is SO 3 H. 5. The ion exchange membrane of claim 1 wherein the polymer is selected from the group consisting of hydrocarbon-based polymers and fluorocarbon-based polymers. 6. The ion exchange membrane of claim 1 wherein the percentage of alkali metal ions exchanged with the acid functional group of the polymer is greater than about 1%. 7. The ion exchange membrane of claim 6 wherein the percentage of alkali metal ions exchanged with the acid functional group of the polymer is at least about 10%. 8. The ion exchange membrane of claim 1 wherein the percentage of alkali metal ions exchanged with H + ions of the acid functional group of the polymer is in the range of 1% to 100%. 9. The ion exchange membrane of claim 1 wherein the membrane includes a peripheral region to be positioned under a seal, and the portion of the membrane into which the alkali metal ions are exchanged includes said peripheral region. 10. The ion exchange membrane of claim 9 wherein the portion of the membrane into which the alkali metal ions are exchanged additionally includes a discrete region isolated from said peripheral region. 11. A unitized electrode assembly for a fuel cell, comprising: an ion exchange membrane, the ion exchange membrane being a sulfonated, hydrocarbon polymer having protons for ion exchange, and having alkali metal ions partially ion-exchanged with the protons of the ion exchange membrane to provide a patterning of the alkali metal ion exchange across a planar area of the ion exchange membrane, or a particular extent of alkali metal ion exchange that differs at respective locations across the planar area of the ion exchange membrane, or both, and the ion exchange membrane having a peripheral edge and a peripheral region adjacent its peripheral edge; an anode positioned to one side of the membrane; a cathode positioned to the other side of the membrane; and a seal at the peripheral region of the membrane. 12. The unitized electrode assembly of claim 11 wherein the sulfonated, hydrocarbon polymer of the ion exchange membrane is at least partially fluorinated. 13. The unitized electrode assembly of claim 11 wherein the partial ion exchange of alkali metal ions is for a portion of the planar area of the ion exchange membrane that is less than the entirety, the portion of the ion exchange membrane into which the alkali metal ions are exchanged includes said peripheral region. 14. A method for modifying the polymer of a polymer electrolyte membrane for a fuel cell to produce the ion exchange membrane of claim 1 , the method comprising: preparing a solution containing alkali metal ions; and bathing a portion of the polymer electrolyte membrane material in the solution containing alkali metal ions to ion-exchange alkali metal ions into the membrane material to produce the ion exchange membrane having alkali metal ions partially ion-exchanged with the H + ions of the acid functional group. 15. The method of claim 14 wherein the solution containing alkali metal ions is a salt solution of NaOH and water; and wherein bathing the portion of the polymer electrolyte membrane material in the salt solution includes bathing the portion of the polymer electrolyte for at least about one hour.