| Patent application number | Description | Published |
|---|
| 20080233436 | DIFFUSION MEDIA TAILORED TO ACCOUNT FOR VARIATIONS IN OPERATING HUMIDITY AND DEVICES INCORPORATING THE SAME - A diffusion media and a scheme for tailoring the parameters of the diffusion media are provided for addressing issues related to water management in electrochemical cells and other devices employing the diffusion media. Various parameters of the diffusion media are tailored to the specific operational humidity of the fuel cell. | 09-25-2008 |
| 20090104476 | FUEL CELL STACK WITH ASYMMETRIC DIFFUSION MEDIA ON ANODE AND CATHODE - The present invention provides a fuel cell having a first diffusion and a second diffusion media having a membrane electrode assembly disposed therebetween. The first diffusion media includes a first set of material characteristics and the second diffusion media includes a second set of material characteristics. The first set of material characteristics has at least one material characteristic substantially different from those same material characteristics of the second set of material characteristics. The difference in material characteristics provides for enhancing water management across a major face of the second diffusion media. | 04-23-2009 |
| 20090148726 | Gas Diffusion Layer for Fuel Cell - A gas diffusion layer for a fuel cell is described. The gas diffusion layer includes a carbon fiber mat having a substantially open structure. Bloomed fibrillated acrylic pulp is added into a microporous layer ink. Alternatively, the bloomed fibrillated acrylic pulp can first be disposed on the carbon fiber mat, with the microporous layer ink added thereafter. When the microporous layer ink/bloomed fibrillated acrylic pulp mixture is coated on the carbon fiber mat, the ink penetrates through the open substrate, and is locked into place by the bloomed acrylic pulp fibers. This allows for a buildup of microporous layer ink on top of the substrate for added thickness when the bloomed fibrillated acrylic pulp sits on top of the mat. | 06-11-2009 |
| 20090181235 | MICROPOROUS LAYER ASSEMBLY AND METHOD OF MAKING THE SAME - One embodiment includes a process including coating a first microporous layer onto a first decal and curing the first microporous layer and the first decal. | 07-16-2009 |
| 20090317686 | FUEL CELL WITH AN ELECTROLYTE STABILIZING AGENT AND PROCESS OF MAKING THE SAME - One exemplary embodiment may include a fuel cell comprising an electrolyte layer and an electrolyte stabilizing agent. The electrolyte stabilizing agent is disposed in an electrochemically non-active layer and configured to migrate from the non-active layer to the electrolyte layer. Another exemplary embodiment may include a microporous layer comprising an electrolyte stabilizing agent. | 12-24-2009 |
| 20100009240 | STRUCTURAL REINFORCEMENT OF MEMBRANE ELECTRODES - A catalyst ink composition for a fuel cell electrode is provided. The catalyst ink composition includes a plurality of electrically conductive support particles; a catalyst formed from a finely divided precious metal, the catalyst supported by the conductive support particles; an ionomer; at least one solvent; and a reinforcing material configured to bridge and distribute stresses across the electrically conductive support particles of the ink composition upon a drying thereof. An electrode for a fuel cell and a method of fabricating the electrode with the catalyst ink composition are also provided. | 01-14-2010 |
| 20100178582 | IONIC LAYER WITH OXYGEN EVOLUTION REACTION CATALYST FOR ELECTRODE PROTECTION - A fuel cell includes a first electrode and a second electrode with an ion conducting polymer membrane positioned between these electrodes. The fuel cell further comprises a first OER catalyst-containing ionic layer positioned between the first electrode and the ion conducting polymer membrane. The first OER catalyst-containing layer includes an OER catalyst-containing compound, an ion conducting polymer and carbon. Characteristically, the weight ratio of ion conducting polymer to carbon is from about 10 to about 100. A method for forming the fuel cell is also provided. | 07-15-2010 |
| 20110008702 | INSULATING LAYER FOR A FUEL CELL ASSEMBLY - A fuel cell assembly is disclosed, the fuel cell assembly including a pair of terminal plates, one terminal plate disposed at each end of the fuel cell assembly, a fuel cell disposed between a pair of end fuel cells and the terminal plates, and a thermally insulating, electrically conductive layer formed between the fuel cell and one of the terminal plates adapted to mitigate thermal losses from the end plate, and fluid condensation and ice formation in an end fuel cell. The end fuel cells of the fuel cell assembly have a membrane and/or a cathode having a thickness greater than an average thickness of a membrane and/or a cathode disposed in the fuel cell that may be used in conjunction with, or instead of, the insulating layer to further mitigate thermal losses from the end plate, and fluid condensation and ice formation in the end fuel cells. | 01-13-2011 |
| 20110039192 | STRUCTURAL REINFORCEMENT OF MEMBRANE ELECTRODES - A catalyst ink composition for a fuel cell electrode is provided. The catalyst ink composition includes a plurality of electrically conductive support particles; a catalyst formed from a finely divided precious metal, the catalyst supported by the conductive support particles; an ionomer; at least one solvent; and a reinforcing material configured to bridge and distribute stresses across the electrically conductive support particles of the ink composition upon a drying thereof. An electrode for a fuel cell and a method of fabricating the electrode with the catalyst ink composition are also provided. | 02-17-2011 |
| 20110117472 | POLYMER DISPERSANT ADDITION TO FUEL CELL ELECTRODE INKS FOR IMPROVED MANUFACTURABILITY - An ink composition for forming a fuel cell electrode includes a catalyst composition, a polymeric binder, a polymeric dispersant, and a solvent. The polymeric dispersant includes a perfluorocyclobutyl-containing polymer. | 05-19-2011 |
