Patent application number | Description | Published |
20110262810 | Nanocomposite Protective Coatings for Battery Anodes - Modified surfaces on metal anodes for batteries can help resist formation of malfunction-inducing surface defects. The modification can include application of a protective nanocomposite coating that can inhibit formation of surface defects. such as dendrites, on the anode during charge/discharge cycles. For example, for anodes having a metal (M′), the protective coating can be characterized by products of chemical or electrochemical dissociation of a nanocomposite containing a polymer and an exfoliated compound (M | 10-27-2011 |
20120088133 | PLANAR HIGH DENSITY SODIUM BATTERY - A method of making a molten sodium battery is disclosed. A first metallic interconnect frame having a first interconnect vent hole is provided. A second metallic interconnect frame having a second interconnect vent hole is also provided. An electrolyte plate having a cathode vent hole and an anode vent hole is interposed between the metallic interconnect frames. The metallic interconnect frames and the electrolyte plate are sealed thereby forming gaseous communication between an anode chamber through the anode vent hole and gaseous communication between a cathode chamber through the cathode vent hole. | 04-12-2012 |
20120088154 | Graphene-Sulfur Nanocomposites for Rechargeable Lithium-Sulfur Battery Electrodes - Rechargeable lithium-sulfur batteries having a cathode that includes a graphene-sulfur nanocomposite can exhibit improved characteristics. The graphene-sulfur nanocomposite can be characterized by graphene sheets with particles of sulfur adsorbed to the graphene sheets. The sulfur particles have an average diameter less than 50 nm. | 04-12-2012 |
20130146133 | THIN FILM PHOTOVOLTAIC SOLAR CELL DEVICE - A thin-film photovoltaic solar cell device is disclosed. A transparent conductive oxide (TCO) layer is disposed on a substrate as a front contact. A window layer is disposed on the TCO layer. A metal oxide layer is disposed on the window layer. An absorber layer is disposed on the metal oxide layer. A back contact layer is disposed on the absorber layer. In one embodiment, the device includes a high resistance barrier (HRT) layer interposed between the window layer and the TCO layer. | 06-13-2013 |
20130196224 | Intermediate Temperature Sodium Metal-Halide Energy Storage Devices - Sodium metal-halide energy storage devices utilizing a substituting salt in its secondary electrolyte can operate at temperatures lower than conventional ZEBRA batteries while maintaining desirable performance and lifetime characteristics. According to one example, a sodium metal-halide energy storage device operates at a temperature less than or equal to 200° C. and has a liquid secondary electrolyte having M | 08-01-2013 |
20140023903 | Hybrid Energy Storage Devices Having Sodium - Sodium energy storage devices employing aspects of both ZEBRA batteries and traditional Na—S batteries can perform better than either battery alone. The hybrid energy storage devices described herein can include a sodium anode, a molten sodium salt catholyte, and a positive electrode that has active species containing sulfur. Additional active species can include a transition metal source and NaCl. As a product of the energy discharge process, Na | 01-23-2014 |
20140080013 | METAL-AIR BATTERY - A metal-air battery is disclosed. The battery includes a sodium anode and an air cathode. The battery further includes a solid electrolyte. The sodium anode may be a molten sodium anode, and the solid electrolyte may be a beta alumina solid electrolyte. The battery has an operating temperature between 100° C. and 200° C. | 03-20-2014 |
20140203469 | GRAPHENE-SULFUR NANOCOMPOSITES FOR RECHARGEABLE LITHIUM-SULFUR BATTERY ELECTRODES - Rechargeable lithium-sulfur batteries having a cathode that includes a graphene-sulfur nanocomposite can exhibit improved characteristics. The graphene-sulfur nanocomposite can be characterized by graphene sheets with particles of sulfur adsorbed to the graphene sheets. The sulfur particles have an average diameter less than 50 nm. | 07-24-2014 |
20140212753 | ORGANOMETALLIC - INORGANIC HYBRID ELECTRODES FOR LITHIUM-ION BATTERIES - Disclosed are embodiments of active materials for organometallic and organometallic-inorganic hybrid electrodes and particularly active materials for organometallic and organometallic-inorganic hybrid cathodes for lithium-ion batteries. In certain embodiments the organometallic material comprises a ferrocene polymer. | 07-31-2014 |
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 |