Patent application number | Description | Published |
20100291444 | MULTILAYER COATINGS FOR RECHARGEABLE BATTERIES - A method for producing a rechargeable battery in the form of a multi-layer coating in one embodiment includes applying an active cathode material above an electrically conductive and electrochemically compatible substrate to form a cathode; applying a solid-phase ionically-conductive electrolyte material above the cathode as a second coating to form an electrode separation layer; applying an anode material above the electrode separation layer to form an anode; and applying an electrically conductive overcoat material above the anode. A method for producing a multi-layer coated cell in another embodiment includes applying an anode material above a substrate to form an anode; applying a solid-phase electrolyte material above the anode to form an electrode separation layer; applying an active cathode material above the electrode separation layer to form a cathode; and applying an electrically conductive overcoat material above the cathode. Cells are also disclosed. | 11-18-2010 |
20110226302 | Thermoelectric Coatings for Waste Heat Recovery and Photo-Thermal Power - An energy harvesting system for collecting energy from sources of thermal energy that exist in the environment and convert the energy to electricity. The system has N-P junctions mounted on the outer surface of a conduit, pipe or flue. A hot medium flows through the conduit, pipe or flue. The p-n junctions operate as thermoelectric power generators. Heat absorbed at the p-n junctions increases the kinetic energy of charge carriers causing migration of the charge carriers. This thermally-driven migration of charge carriers is used to drive an electrical current in an external circuit. | 09-22-2011 |
20110281159 | MULTI-LAYER COATINGS FOR BIPOLAR RECHARGEABLE BATTERIES WITH ENHANCED TERMINAL VOLTAGE - A method for producing a multi-layer bipolar coated cell according to one embodiment includes applying a first active cathode material above a substrate to form a first cathode; applying a first solid-phase ionically-conductive electrolyte material above the first cathode to form a first electrode separation layer; applying a first active anode material above the first electrode separation layer to form a first anode; applying an electrically conductive barrier layer above the first anode; applying a second active cathode material above the anode material to form a second cathode; applying a second solid-phase ionically-conductive electrolyte material above the second cathode to form a second electrode separation layer; applying a second active anode material above the second electrode separation layer to form a second anode; and applying a metal material above the second anode to form a metal coating section. In another embodiment, the anode is formed prior to the cathode. Cells are also disclosed. | 11-17-2011 |
20140098462 | SUPER CAPACITOR WITH FIBERS - An electrical cell apparatus includes a first current collector made of a multiplicity of fibers, a second current collector spaced from the first current collector; and a separator disposed between the first current collector and the second current collector. The fibers are contained in a foam. | 04-10-2014 |