| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 429318000 | Silver containing component | 6 |
| 20120082902 | ELECTRODE AND ELECTROLYTE MATERIALS FOR BATTERIES - Disclosed are open-framework solids that possess superior ion-transport properties pertinent to the electrochemical performance of next-generation electrode materials for battery devices. Disclosed compounds including compositions and architectures relevant to electrical energy storage device applications have been developed through integrated solid-state and soft (solution) chemistry studies. The solids can adopt a general formula of A | 04-05-2012 |
| 20120231348 | LITHIUM ION CONDUCTING MATERIAL AND LITHIUM BATTERY - A lithium ion conducting material includes a sulfide-based solid electrolyte material that contains Li, an element that belongs to group 13 to group 15 and S, and that contains an MS | 09-13-2012 |
| 20130316250 | Cubic Ionic Conductor Ceramics for Alkali Ion Batteries - The present invention relates to novel compositions, electrodes, electrochemical storage devices (batteries) and ionic conduction devices that use cubic ionic conductor (“CUBICON”) compounds, preferably nitridophosphate compounds. The cubic ionic conductor compound have a framework formula [MT | 11-28-2013 |
| 20140072883 | ELECTROCHEMICAL DEVICE - An electrochemical device manufactured using an electrode layer in which severe increase of electrode resistance is prevented and/or a solid electrolyte layer in which severe decrease of ion conductivity of a solid electrolyte is prevented is provided. The electrochemical device includes a pair of electrode layers, and a solid electrolyte layer provided between the pair of electrode layers, wherein at least one layer of the electrode layers and the solid electrolyte layer is composed of first particles each providing a function of the at least one layer, second particles and a binder which is composed of an organic polymer and binds the first and second particles, and wherein the at least one layer is formed from a mixture material containing the first particles and binder particles, each of the binder particles including the second particle and the binder carried on at least a part of a surface thereof. | 03-13-2014 |
| 20140242471 | METALLIZATION PATTERN ON SOLID ELECTROLYTE OR POROUS SUPPORT OF SODIUM BATTERY PROCESS - A new battery configuration and process are detailed. The battery cell includes a solid electrolyte configured with an engineered metallization layer that distributes sodium across the surface of the electrolyte extending the active area of the cathode in contact with the anode during operation. The metallization layer enhances performance, efficiency, and capacity of sodium batteries at intermediate temperatures at or below about 200° C. | 08-28-2014 |
| 20160190636 | ALL-SOLID-STATE METAL-METAL BATTERY COMPRISING ION CONDUCTING CERAMIC AS ELECTROLYTE - An all-solid-state metal-metal battery with both high energy density and high power density is provided. The battery has an anolyte including at least one active anode metal ion conducting ceramic solid and a catholyte including at least one active cathode metal ion conducting ceramic solid sandwiched between an anode including an alkali metal or an alkaline earth metal as the active anode metal and an cathode including a transition metal as the active cathode metal. Prior to the initial charge, the battery may have an anode current collector devoid of the active anode metal or a cathode current collector devoid of the active cathode metal. | 06-30-2016 |
