Composite air electrode and associated manufacturing method

The invention claimed is: 1. A method for manufacturing a composite electrode configured to be used in a metal-air electrochemical cell with a liquid electrolyte of basic pH, the method comprising: obtaining an air electrode porous structure comprising an outer surface, the porous structure being configured to facilitate an oxygen reduction reaction into hydroxyl ions in the presence of an electric current; synthesizing a first liquid solution comprising a fluoropolymer suspended in a solvent, the fluoropolymer being capable of forming a membrane impermeable to at least the liquid electrolyte of basic pH, the fluoropolymer comprising SO 2 N groups capable of conducting hydroxyl ions and wherein the fluoropolymer comprises a fluorinated backbone chain with polar groups that are at least partially hydrogenated; applying the first liquid solution at least once onto the outer surface of the porous structure, the solvent flowing through the porous structure and the fluoropolymer being deposited by aggregating into a layer on the outer surface of the porous structure, thereby forming said membrane impermeable to at least the liquid electrolyte of basic pH and conductive to hydroxyl ions. 2. The method according to claim 1 , further comprising: applying the first liquid solution a second time onto the outer surface of the porous structure, evaporating the solvent of the first liquid solution applied a second time onto the outer surface of the porous structure. 3. The method according to claim 1 , further comprising, during the obtaining of the porous structure: incorporating the fluoropolymer comprising SO 2 N groups capable of conducting hydroxyl ions and capable of forming a membrane impermeable to at least the liquid electrolyte of basic pH, into a carbon powder used to prepare the porous structure, obtaining the porous structure from the carbon powder mixed with the fluoropolymer. 4. The method according to claim 1 , wherein the electrode is configured as a positive electrode of a metal-air battery, the pH of the liquid electrolyte being about 14 or higher. 5. The method according to claim 1 , wherein the membrane has a thickness from 10 μm to 100 μm after the applying step.