Scalable roll-to-roll fabrication of high-performance membrane electrode assemblies

What is claimed is: 1. A manufacturing process comprising: depositing a first catalyst support on a first gas diffusion layer to form a first catalyst support-coated gas diffusion layer, wherein the first catalyst supported comprises a porous carbonaceous material; depositing a first catalyst by atomic layer deposition (ALD) on the first catalyst support-coated diffusion layer to form a first catalyst-coated gas diffusion layer; depositing a first ionomer on the first catalyst-coated gas diffusion layer to form a first gas diffusion electrode; depositing a second catalyst on a second gas diffusion layer to form a second catalyst-coated gas diffusion layer; depositing a second ionomer on the second catalyst-coated gas diffusion layer to form a second gas diffusion electrode; and laminating the first gas diffusion electrode with the second gas diffusion electrode and with an electrolyte membrane disposed between the first gas diffusion electrode and the second gas diffusion electrode to form a membrane electrode assembly, wherein the first ionomer and/or the second ionomer is in the form of agglomerates having sizes in a range of about 20 nm to about 10,000 nm. 2. The manufacturing process of claim 1 , further comprising depositing a second catalyst support on the second gas diffusion layer to form a second catalyst support-coated gas diffusion layer, and wherein depositing the second catalyst on the second gas diffusion layer includes depositing the second catalyst on the second catalyst support-coated gas diffusion layer to form the second catalyst-coated gas diffusion layer. 3. The manufacturing process of claim 2 , wherein depositing the second catalyst is performed by atomic layer deposition. 4. The manufacturing process of claim 1 , further comprising forming the electrolyte membrane on the first gas diffusion electrode, prior to laminating the first gas diffusion electrode with the second gas diffusion electrode. 5. The manufacturing process of claim 4 , wherein forming the electrolyte membrane is performed by casting or molecular layer deposition. 6. The manufacturing process of claim 4 , wherein a thickness of the electrolyte membrane is 15 μm or less. 7. The manufacturing process of claim 4 , further comprising depositing a radical scavenger to form a scavenger layer on the electrolyte membrane. 8. The manufacturing process of claim 1 , wherein depositing the first ionomer includes at least partially impregnating the first ionomer into a first catalyst layer of the first catalyst-coated gas diffusion layer. 9. The manufacturing process of claim 8 , wherein depositing the second ionomer includes at least partially impregnating the second ionomer into a second catalyst layer of the second catalyst-coated gas diffusion layer. 10. A manufacturing process comprising: depositing a first catalyst support on a first gas diffusion layer to form a first catalyst support-coated gas diffusion layer, wherein the first catalyst support comprises a porous carbonaceous material; depositing a first catalyst by atomic layer deposition (ALD) onto the first catalyst support-coated gas diffusion layer to form a first catalyst-coated gas diffusion layer; depositing an ionomer on the first catalyst-coated gas diffusion layer to form a gas diffusion electrode, wherein the ionomer is in the form of agglomerates having sizes in a range of about 20 nm to about 10,000 nm; forming an electrolyte membrane on the gas diffusion electrode; depositing a second catalyst on the electrolyte membrane to form a catalyst-coated gas diffusion electrode; and laminating the catalyst-coated gas diffusion electrode with a second gas diffusion layer to form a membrane electrode assembly. 11. The manufacturing process of claim 10 , wherein depositing the ionomer is according to a gradient in concentration of the ionomer along a direction towards the first gas diffusion layer. 12. The manufacturing process of claim 10 , wherein depositing the ionomer is according to a gradient in at least one of chemical composition or molecular weight of the ionomer along a direction towards the first gas diffusion layer. 13. The manufacturing process of claim 10 , wherein depositing the second catalyst on the electrolyte membrane is performed by atomic layer deposition (ALD). 14. The manufacturing process of claim 1 , wherein at least a fraction of the first catalyst is deposited within pores of the first catalyst support. 15. The manufacturing process of claim 10 , wherein at least a fraction of the first catalyst is deposited within pores of the first catalyst support. 16. The manufacturing process of claim 14 , wherein the pores have diameters in a range of about 0.5 nm to about 12 nm. 17. The manufacturing process of claim 15 , wherein the pores have diameters in a range of about 0.5 nm to about 12 nm. 18. The manufacturing process of claim 1 , wherein the agglomerates have sizes in a range of about 50 nm to about 5,000 nm. 19. The manufacturing process of claim 10 , wherein the agglomerates have sizes in a range of about 50 nm to about 5,000 nm. 20. The manufacturing process of claim 1 , wherein the first ionomer and/or the second ionomer is deposited from a solvent, wherein the solvent has a composition selected to tune the sizes of the agglomerates.