Patent application number | Description | Published |
20120187906 | FUEL CELL/ SUPERCAPACITOR/ BATTERY POWER SYSTEM FOR VEHICULAR PROPULSION - The present invention provides a power system for a vehicle The power system comprising a supercapacitor-like electronic battery that is connected to a battery charger. The battery charger provides energy to the supercapacitor-like electronic battery. A heater is operatively connected to the supercapacitor-like electronic battery to provide energy to heat the supercapacitor-like electronic battery thereby lowering the internal impedance of the supercapacitor-like electronic battery. A charging apparatus is operatively connected to the battery charger. A motor is operatively connected to the vehicle and the supercapacitor-like electronic battery. A feedback loop controller is operatively connected to the heater, the supercapacitor-like electronic battery and the motor. | 07-26-2012 |
20120216379 | ALL SOLID-STATE ELECTROCHEMICAL DOUBLE LAYER SUPERCAPACITOR - The present invention provides a method for fabricating a supercapacitor-like electronic battery. The steps for fabricating a supercapacitor-like electronic battery are as follows. A first current collector is formed on a substrate. A first electrode is formed on the first current collector. A first electrode is formed from a first solid state electrolyte and a first conductive material where the first conductive material is irreversible to the mobile ions contained in the first solid state electrolyte and the first conductive material exceeds the percolation limit. An electrolyte is formed on the first electrode. A second electrode is formed on the electrolyte. The second electrode is formed from a second solid state electrolyte and a second conductive material where the second conductive material is irreversible to the mobile ions contained in the second solid state electrolyte and the second conductive material exceeds the percolation limit. A second current collector is formed on the second electrode. | 08-30-2012 |
20130078510 | CORE-SHELL NANOPARTICLES IN ELECTRONIC BATTERY APPLICATIONS - The present invention provides an improved supercapacitor-like electronic battery comprising a conventional electrochemical capacitor structure. A first nanocomposite electrode and a second electrode and an electrolyte are positioned within the conventional electrochemical capacitor structure. The electrolyte separates the nanocomposite electrode and the second electrode. The first nanocomposite electrode has first conductive core-shell nanoparticles in a first electrolyte matrix. A first current collector is in communication with the nanocomposite electrode and a second current collector is in communication with the second electrode. Also provided is an electrostatic capacitor-like electronic battery comprising a high dielectric-strength matrix separating a first electrode from a second electrode and, dispersed in said high-dielectric strength matrix, a plurality of core-shell nanoparticles, each of said core-shell nanoparticles having a conductive core and an insulating shell. | 03-28-2013 |
20130078515 | ELECTRONIC BATTERY WITH NANO-COMPOSITE - A supercapacitor-like electronic battery exhibits a conventional electrochemical capacitor structure with a first nanocomposite electrode positioned within said conventional electrochemical capacitor structure. Said nanocomposite electrode shows nano-scale conductive particles dispersed in a electrolyte matrix, said nano-scale conductive particles being coated with a designed and functionalized organic or organometallic compound. A second nanocomposite electrode is positioned within said conventional electrochemical capacitor structure with similar properties. An electrolyte within said conventional electrochemical capacitor structure separates said first from said second nanocomposite electrode. Two current collectors in communication with said first and second nanocomposite electrode complete the electric scheme. A method for fabricating a capacitor includes forming conductive or semiconducting nanoparticles and reacting said nanoparticles with a first designed and functionalized organic or organometallic compound, said reaction forming an organic or organometallic shell surrounding each of said nanoparticles. Said treated nanoparticles are being dispersed into an electrolyte matrix to form a nanocomposite electrode. | 03-28-2013 |
Patent application number | Description | Published |
20120187906 | FUEL CELL/ SUPERCAPACITOR/ BATTERY POWER SYSTEM FOR VEHICULAR PROPULSION - The present invention provides a power system for a vehicle The power system comprising a supercapacitor-like electronic battery that is connected to a battery charger. The battery charger provides energy to the supercapacitor-like electronic battery. A heater is operatively connected to the supercapacitor-like electronic battery to provide energy to heat the supercapacitor-like electronic battery thereby lowering the internal impedance of the supercapacitor-like electronic battery. A charging apparatus is operatively connected to the battery charger. A motor is operatively connected to the vehicle and the supercapacitor-like electronic battery. A feedback loop controller is operatively connected to the heater, the supercapacitor-like electronic battery and the motor. | 07-26-2012 |
20120216379 | ALL SOLID-STATE ELECTROCHEMICAL DOUBLE LAYER SUPERCAPACITOR - The present invention provides a method for fabricating a supercapacitor-like electronic battery. The steps for fabricating a supercapacitor-like electronic battery are as follows. A first current collector is formed on a substrate. A first electrode is formed on the first current collector. A first electrode is formed from a first solid state electrolyte and a first conductive material where the first conductive material is irreversible to the mobile ions contained in the first solid state electrolyte and the first conductive material exceeds the percolation limit. An electrolyte is formed on the first electrode. A second electrode is formed on the electrolyte. The second electrode is formed from a second solid state electrolyte and a second conductive material where the second conductive material is irreversible to the mobile ions contained in the second solid state electrolyte and the second conductive material exceeds the percolation limit. A second current collector is formed on the second electrode. | 08-30-2012 |
20130078510 | CORE-SHELL NANOPARTICLES IN ELECTRONIC BATTERY APPLICATIONS - The present invention provides an improved supercapacitor-like electronic battery comprising a conventional electrochemical capacitor structure. A first nanocomposite electrode and a second electrode and an electrolyte are positioned within the conventional electrochemical capacitor structure. The electrolyte separates the nanocomposite electrode and the second electrode. The first nanocomposite electrode has first conductive core-shell nanoparticles in a first electrolyte matrix. A first current collector is in communication with the nanocomposite electrode and a second current collector is in communication with the second electrode. Also provided is an electrostatic capacitor-like electronic battery comprising a high dielectric-strength matrix separating a first electrode from a second electrode and, dispersed in said high-dielectric strength matrix, a plurality of core-shell nanoparticles, each of said core-shell nanoparticles having a conductive core and an insulating shell. | 03-28-2013 |
20130078515 | ELECTRONIC BATTERY WITH NANO-COMPOSITE - A supercapacitor-like electronic battery exhibits a conventional electrochemical capacitor structure with a first nanocomposite electrode positioned within said conventional electrochemical capacitor structure. Said nanocomposite electrode shows nano-scale conductive particles dispersed in a electrolyte matrix, said nano-scale conductive particles being coated with a designed and functionalized organic or organometallic compound. A second nanocomposite electrode is positioned within said conventional electrochemical capacitor structure with similar properties. An electrolyte within said conventional electrochemical capacitor structure separates said first from said second nanocomposite electrode. Two current collectors in communication with said first and second nanocomposite electrode complete the electric scheme. A method for fabricating a capacitor includes forming conductive or semiconducting nanoparticles and reacting said nanoparticles with a first designed and functionalized organic or organometallic compound, said reaction forming an organic or organometallic shell surrounding each of said nanoparticles. Said treated nanoparticles are being dispersed into an electrolyte matrix to form a nanocomposite electrode. | 03-28-2013 |
20150059138 | ALL SOLID-STATE ELECTROCHEMICAL DOUBLE LAYER SUPERCAPACITOR - A method for fabricating a supercapacitor-like electronic battery includes the following steps. A first current collector is formed on a substrate. A first electrode is formed on the first current collector. A first electrode is formed from a first solid state electrolyte and a first conductive material where the first conductive material is irreversible to the mobile ions contained in the first solid state electrolyte and the first conductive material exceeds the percolation limit. An electrolyte is formed on the first electrode. A second electrode is formed on the electrolyte. The second electrode is formed from a second solid state electrolyte and a second conductive material where the second conductive material is irreversible to the mobile ions contained in the second solid state electrolyte and the second conductive material exceeds the percolation limit. A second current collector is formed on the second electrode. | 03-05-2015 |