Taberna
Claudio Taberna, Villarbasse IT
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20120114784 | MOULD FOR THE INJECTION MOULDING OF ELEMENTS WITH UNDERCUTS MADE OF PLASTIC MATERIAL, WITH AN INTEGRATED EJECTION SYSTEM - The present invention refers to a mould ( | 05-10-2012 |
Jesus Lopez Taberna, Navarra ES
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20090316458 | SINGLE-PHASE INVERTER CIRCUIT TO CONDITION AND TRANSFORM DIRECT CURRENT ELECTRIC POWER INTO ALTERNATING CURRENT ELECTRIC POWER - The invention presents a structure for the conversion of direct current electric power into alternating current electric power, characterised in that it is simple, highly efficient and minimises the problem of electromagnetic compatibility. The circuit includes, in its first preferred embodiment, six switching elements governed by a command unit, four switches forming an H-bridge (T | 12-24-2009 |
Pierre-Iouis Taberna, Toulouse FR
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20110128671 | SUPERCAPACITORS AND METHODS FOR PRODUCING SAME - Disclosed are microporous carbon compositions suitable for use in supercapacitor devices, which compositions comprise pores having an average characteristic cross-sectional dimension of less than about 1 nm. Also described are electrodes and electrochemical cells that utilize the disclosed compositions and methods of making the disclosed compositions. | 06-02-2011 |
Pierre-Louis Taberna, Escalquens FR
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20100308473 | METHOD FOR MAKING AN ELECTRICALLY CONDUCTING MECHANICAL INTERCONNECTION MEMBER - A method of fabricating an electrically conductive mechanical interconnection element ( | 12-09-2010 |
20110122542 | SUPERCAPACITOR COMPOSITIONS, DEVICES AND RELATED METHODS - Disclosed are supercapacitor materials comprising compositions having pores that are optimally sized to maximize capacitance. Also disclosed are related methods for fabricating such supercapacitors. | 05-26-2011 |
20130244121 | NOVEL APPLICATIONS FOR ALLIFORM CARBON - This invention relates to novel applications for alliform carbon, useful in conductors and energy storage devices, including electrical double layer capacitor devices and articles incorporating such conductors and devices. Said alliform carbon particles are in the range of 2 to about 20 percent by weight, relative to the weight of the entire electrode. Said novel applications include supercapacitors and associated electrode devices, batteries, bandages and wound healing, and thin-film devices, including display devices. | 09-19-2013 |
Pierre-Louis Taberna, Roques Sur Garonne FR
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20080233273 | Electrode for Energy Storage Systems, Production Method thereof and Energy Storage System Comprising Said Electrode - One subject of the invention is films of active carbon-based material based on activated carbon of set porosity, purity and particle size distribution and on a polymer binder, the electrodes comprising such a film coated on a current collector and the ultracapacitors comprising at least one of these electrodes. | 09-25-2008 |
20090155693 | DISPERSED SOLUTION OF CARBON-CONTAINING MATERIALS FOR THE PRODUCTION OF CURRENT COLLECTORS - A method of preparing a dispersed solution of carbon-containing particles of nanometric size includes: preparing a polymeric matrix of a determined viscosity, then introducing into the matrix a fraction of carbon-containing particles and a fraction of wetting agent, the solvent of the matrix, and maintaining under agitation until a sol of stable viscosity is obtained, these operations being repeated until the carbon-containing particles and the solvent are exhausted. The dispersal solution includes: in a ratio to the total volume of solution: i) 1% to 4%, preferably 2% to 4% (m/v), of carbon-containing particles in suspension, ii) 20% to 40% (v/v) of a polymeric matrix, and iii) a wetting agent, the solvent of the polymeric matrix, said dispersed solution comprising neither binder nor dispersing agent. | 06-18-2009 |
20090316335 | Method for the Electrolytic Production of Self-Supporting Conductive Nanocomposite Elements - The invention relates to a self-supporting composite element and to a method of producing same. The composite element comprises a substrate of electronic conductive material which is covered with metal nanowires that are essentially oriented along a plane that is perpendicular to the substrate. The element is produced in a cell comprising a cathode which is formed by the substrate to be covered, one or more anodes and an electrolyte which is formed by a solution of a precursor of the metal material and optionally containing a conductive ionic salt, a flat porous membrane which is placed between the cathode and each of the anodes and a spacer element between each membrane and the anode adjacent thereto, the different constituent parts of the cell being maintained in contact. | 12-24-2009 |