Nanofiber electrode and method of forming same

What is claimed is: 1. A membrane-electrode-assembly (MEA) for an electrochemical device, the MEA comprising: (a) a membrane having a first surface and an opposite, second surface; (b) an anode disposed on the first surface of the membrane; (c) a cathode disposed on the second surface of the membrane, the cathode formed by the steps of: (i) mixing at least a first amount of a catalyst, a second amount of a perfluorosulfonic acid polymer, and a third amount of polyacrylic acid (PAA) in a solvent to form a liquid mixture, wherein the liquid mixture is not a true solution and satisfies |δsolvent-δsolute|>1, wherein δsolvent and δsolute are respectively Hildebrand solubility parameters of the solvent and the perfluorosulfonic acid polymer, wherein ratios between the first amount, the second amount and the third amount are about 15:3:2 by weight; (ii) delivering the liquid mixture into a metallic needle having a needle tip; (iii) applying a voltage between the needle tip and a collector substrate positioned at a distance from the needle tip; (iv) extruding the liquid mixture from the needle tip at a flow rate such as to generate electrospun fibers and deposit the generated fibers on the collector substrate to form a mat comprising a porous network of fibers, wherein each fiber has a plurality of particles of the catalyst distributed thereon; and (v) pressing the mat onto the second surface of the membrane. 2. The membrane-electrode-assembly of claim 1 , wherein the catalyst comprises platinum-supported carbon (Pt/C). 3. The membrane-electrode-assembly of claim 1 , wherein the perfluorosulfonic acid polymer comprises Nafion®. 4. The membrane-electrode-assembly of claim 1 , wherein the collector substrate comprises a carbon paper or carbon cloth gas diffusion layer. 5. The membrane-electrode-assembly of claim 1 , wherein the collector substrate is disposed on a rotating drum. 6. The membrane-electrode-assembly of claim 1 , wherein the fibers are formed to have an average diameter of about 470 nm. 7. The membrane-electrode-assembly of claim 1 , wherein the cathode, as formed, has a Pt loading in a range from about 0.025 to about 0.4 mg/cm 2 . 8. The membrane-electrode-assembly of claim 1 , wherein the membrane is ionically conductive. 9. The membrane-electrode-assembly of claim 8 , wherein the membrane is proton conductive. 10. The membrane-electrode-assembly of claim 9 , wherein the proton conductive membrane comprises a perfluorosulfonic acid. 11. The membrane-electrode-assembly of claim 10 , wherein the perfluorosulfonic acid membrane comprises Nafion®. 12. The membrane-electrode-assembly of claim 1 , wherein the membrane is a nanofiber composite membrane. 13. The membrane-electrode assembly of claim 1 , wherein the catalyst comprises Pt particles, Pt alloy particles, Pt on carbon particles, precious metal particles, precious metal on carbon particles, precious metal based alloys, previous metal based alloys on carbon particles, Ag particles, Ni particles, Ag alloy particles, Ni alloy particles, Fe particles, Fe alloy particles, Pd particles, Pd alloy particles, core-shell catalyst particles, non-platinum group metal (PGM) fuel cell catalysts, or a combination thereof. 14. The membrane-electrode-assembly of claim 1 , wherein the solvent comprises one or more solvent components.