Protective and precipitation layers for PEM fuel cell

The invention claimed is: 1. A membrane electrode assembly, comprising: an anode; a cathode; a membrane between the anode and the cathode; and a precipitation layer between the membrane and at least one electrode of the anode and the cathode, wherein the precipitation layer includes carbon nanofibers, wherein the precipitation layer has a nucleation site concentration (C nucl. sites ), a diffusion coefficient for platinum ions (D Pt ), a thickness (L PL ), and a nucleation constant (k nucl ), and wherein: C nucl . sites >> D Pt L PL 2 ⁢ k nucl . 2. The membrane electrode assembly of claim 1 wherein the precipitation layer has >10 14 /cm 3 nucleation sites in the precipitation layer. 3. The membrane electrode assembly of claim 1 wherein the precipitation layer comprises particles of a material selected from the group consisting of platinum, carbon, gold on carbon, TiO 2 , silver on carbon, core-shell structures with gold outerlayer and nickel core, and combinations thereof. 4. The membrane electrode assembly of claim 3 wherein the particles have a particle size of at least about 5 nm. 5. The membrane electrode assembly of claim 1 wherein the precipitation layer is at least partially disconnected from the at least one electrode, whereby during operation of the fuel cell, the precipitation layer has a lower potential than the at least one electrode. 6. The membrane electrode assembly of claim 1 , further comprising a low gas permeability layer between the precipitation layer and the at least one electrode, or between the membrane and the precipitation layer. 7. The membrane electrode assembly of claim 1 , further comprising an additional precipitation layer, and wherein the precipitation layer and the additional precipitation layer are between the membrane and the anode, and between the membrane and the cathode, respectively. 8. A membrane electrode assembly for a PEM fuel cell, the membrane electrode assembly comprising: an anode; a cathode; a membrane between the anode and the cathode; and a precipitation layer between the membrane and at least one electrode of the anode and the cathode, the precipitation layer comprising a ceramic material and particles greater than about 5 nm of a material selected from the group consisting of platinum, carbon, gold on carbon, TiO 2 , silver on carbon, core-shell structures with gold outerlayer and nickel core, and combinations thereof, the precipitation layer being at least partially disconnected from the at least one electrode such that, during operation of the fuel cell, the precipitation layer has a lower potential than the at least one electrode, whereby catalyst ion migration into the membrane is reduced by converting ionic catalyst metal into metallic form, wherein the precipitation layer has a nucleation site concentration (C nucl. sites ), a diffusion coefficient for platinum ions (D Pt ), a thickness (L PL ), and a nucleation constant (k nucl ), and wherein: C nucl . sites >> D Pt L PL 2 ⁢ k nucl . 9. The membrane electrode assembly of claim 8 wherein the precipitation layer has >10 14 /cm 3 nucleation sites in the precipitation layer. 10. The membrane electrode assembly of claim 8 , further comprising a protective layer in the form of a low gas permeability layer which is positioned between the precipitation layer and the at least one electrode, or between the membrane and the precipitation layer. 11. The membrane electrode assembly of claim 8 wherein the precipitation layer comprises a dispersion of the particles and ionomer solution. 12. The membrane electrode assembly of claim 11 wherein the precipitation layer is spray-coated on the membrane. 13. A membrane electrode assembly, comprising: an anode; a cathode; a membrane between the anode and the cathode; and a precipitation layer between the membrane and at least one electrode of the anode and the cathode, wherein the precipitation layer includes core-shell structures having a gold shell and a nickel core, wherein the precipitation layer has a nucleation site concentration (C nucl. sites ), a diffusion coefficient for platinum ions (D Pt ), a thickness (L PL ), and a nucleation constant (k nucl ), and wherein: C nucl . sites >> D Pt L PL 2 ⁢ k nucl . 14. The membrane electrode assembly of claim 13 wherein the precipitation layer is at least partially disconnected from the at least one electrode, whereby during operation of the fuel cell, the precipitation layer has a lower potential than the at least one electrode. 15. The membrane electrode assembly of claim 13 , further comprising a low gas permeability layer between the precipitation layer and the at least one electrode or between the membrane and the precipitation layer. 16. The membrane electrode assembly of claim 13 , further comprising an additional precipitation layer, and wherein the precipitation layer and the additional precipitation layer are between the membrane and the anode, and between the membrane and the cathode, respectively.