Hybrid Ionomer Electrochemical Devices

摘要

A membrane electrode assembly for use in a fuel cell includes an anode electrode, a proton exchange membrane, an anion exchange membrane and a cathode electrode. The anode electrode includes a first catalyst. The first catalyst separates a reducing agent into a plurality of positively charged ions and negative charges. The proton exchange membrane is configured to favor transport of positively charged ions therethrough and is also configured to inhibit transport of negatively charged particles therethrough. The anion exchange membrane is configured to favor transport of negatively charged ions therethrough and is also configured to inhibit transport of positively charged ions therethrough. The cathode electrode includes a second catalyst and is disposed adjacent to a second side of the anion exchange membrane. The second catalyst reacts electrons with the at least one oxidizing agent so as to generate+reduced species.

主权项

1. A method of generating electrical energy from a reducing agent, comprising the actions of:
a. introducing the reducing agent to an anode electrode that includes a first catalyst and that is coupled to a first side of a proton exchange membrane, the proton exchange membrane having a second side disposed oppositely from the first side, wherein the anode electrode is configured to oxidize the reducing agent into a plurality of positively charged ions; b. introducing an oxidizing agent to a cathode electrode that includes a second catalyst and that is coupled to a second side of an anion exchange membrane, the anion exchange membrane including a first side that is disposed adjacently to the second side of the proton exchange membrane, wherein the cathode electrode is configured to receive the oxidizing agent along the second cathode surface, the second catalyst configured to react electrons with the oxidizing agent so as to generate negatively charged reduced species; c. coupling a load between the anode electrode and the cathode electrode, the load configured to provide an electrical path between the anode electrode and the cathode electrode; d. reacting the reacting the reduced species from the cathode with the oxidized species from the anode at an interface between the proton exchange membrane and the anion exchange membrane, thereby producing water; and e. hydrating the cathode electrode and the anion exchange membrane with the water produced as a result of the reacting step.