| Patent application number | Description | Published |
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| 20100227224 | HIGH PERFORMANCE SULFUR-BASED DRY POLYMER ELECTRODES - A sulfur-based cathode for use in an electrochemical cell is disclosed. An exemplary sulfur-based cathode is coupled with a solid polymer electrolyte instead of a conventional liquid electrolyte. The dry, solid polymer electrolyte acts as a diffusion barrier for the sulfur, thus preventing the sulfur capacity fade that occurs in conventional liquid electrolyte based cell systems. The solid polymer electrolyte further binds the sulfur-containing active particles, preventing sulfur agglomerates from forming, while still allowing lithium ions to be transported between the anode and cathode. | 09-09-2010 |
| 20110003211 | ELECTRODES WITH SOLID POLYMER ELECTROLYTES - An electrode assembly that includes an electrode film and a current collector is provided. The electrode film includes electrode active material, electronically conductive particles, and a solid polymer electrolyte. In some embodiments, no additional binder is used as the solid polymer electrolyte also acts as a binder to hold together the active material and electronically conductive particles, thus creating a freestanding electrode film. Such a freestanding film makes it possible to deposit a very thin current collector layer, thus increasing specific energy and specific power for electrochemical cells in which these electrode assemblies are used. | 01-06-2011 |
| 20110033755 | PROTECTED LITHIUM METAL ELECTRODES FOR RECHARGEABLE BATTERIES - It has long been recognized that replacing the Li intercalated graphitic anode with a lithium foil can dramatically improve energy density due to the dramatically higher capacity of metallic lithium. However, lithium foil is not electrochemically stable in the presence of typical lithium ion battery electrolytes and thus a simple replacement of graphitic anodes with lithium foils is not possible. It was found that diblock or triblock polymers that provide both ionic conduction and structural support can be used as a stable passivating layer on a lithium foil. This passivation scheme results in improved manufacture processing for batteries that use Li electrodes and in improved safety for lithium batteries during use. | 02-10-2011 |
| Patent application number | Description | Published |
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| 20090075176 | Solid Electrolyte Material Manufacturable by Polymer Processing Methods - The present invention relates generally to electrolyte materials. According to an embodiment, the present invention provides for a solid polymer electrolyte material that is ionically conductive, mechanically robust, and can be formed into desirable shapes using conventional polymer processing methods. An exemplary polymer electrolyte material has an elastic modulus in excess of 1×10 | 03-19-2009 |
| 20090104523 | High elastic modulus polymer electrolytes suitable for preventing thermal runaway in lithium batteries - A polymer that combines high ionic conductivity with the structural properties required for Li electrode stability is useful as a solid phase electrolyte for high energy density, high cycle life batteries that do not suffer from failures due to side reactions and dendrite growth on the Li electrodes, and other potential applications. The polymer electrolyte includes a linear block copolymer having a conductive linear polymer block with a molecular weight of at least 5000 Daltons, a structural linear polymer block with an elastic modulus in excess of 1×10 | 04-23-2009 |
| 20090263725 | High Elastic Modulus Polymer Electrolytes - A polymer that combines high ionic conductivity with the structural properties required for Li electrode stability is useful as a solid phase electrolyte for high energy density, high cycle life batteries that do not suffer from failures due to side reactions and dendrite growth on the Li electrodes, and other potential applications. The polymer electrolyte includes a linear block copolymer having a conductive linear polymer block with a molecular weight of at least 5000 Daltons, a structural linear polymer block with an elastic modulus in excess of 1×10 | 10-22-2009 |
