Patent application number | Description | Published |
20090117094 | Method Of Making The Porous Carbon Material And Porous Carbon Materials Produced By The Method - A method for making the microporous carbon with modified pore size distribution and advanced sorption behaviour. The carbon is derived from metal or metalloid carbides. The method employs the use of oxidant in reaction medium that during the carbide conversion into carbon widens small micropores, which otherwise would be hardly accessed by sorbing molecules or ions in practical applications. The microporous carbon obtained is free of impurities and possesses extremely narrow pore size distribution. | 05-07-2009 |
20130133923 | A CARBON COMPOSITE ELECTRODE FOR THE ELECTRIC DOUBLE-LAYER CAPACITOR - The present invention concerns a high power density carbon composite electrode for electric double layer capacitors, and a method of manufacture of high density electrode consisting of mineral carbon with suitable nanostructures and morphology. The invention describes a statistical model, which makes possible to select and/or develop carbide carbon materials having a great energy and electrical capacity properties used in the manufacture of the carbon composite electrodes. The simultaneous compliance and achievement of all the statistical parameters of the model allows manufacture superior power density electrodes for super capacitor. | 05-30-2013 |
20130240798 | METHOD OF MANUFACTURE OF HOMODISPERSED SILICON CARBIDE-DERIVED CARBON COMPOSITES - The present invention concerns a method of manufacture of the homodispersed composite of the synthetic carbon material derived from carbide and silicon where the powder of the carbon material is first dispersed mechanically with the powder of silicon to homodispersed mixture, then the homodispersed mixture of the carbon material and silicon is sintered in an inert environment at a temperature between 1200 to 1500° C. to synthetic homodispersed composite of the silicon carbide and silicon. The homodispersed composite of the silicon carbide and silicon is heated in an inert environment at a temperature between 800 to 1100° C. and then the homodispersed composite of the silicon carbide and silicon is chlorinated at a temperature from 800 to 100° C. | 09-19-2013 |
20130283580 | ELECTRICAL DOUBLE LAYER CAPACITOR WITH ENHANCED WORKING VOLTAGE - The present invention relates to the method of increasing the working voltage of electrical double layer capacitor with enhanced working voltage, which has electrodes fabricated from porous carbon powder in which the pore sizes and the specific surface are created by extracting the non-carbon atoms from the carbon-rich organic or mineral compounds. The method is performed by step-by-step treatment of supercapacitor with the conditioning voltage (Uc), which is increased gradually up to the working voltage (Uw) by the voltage step (ΔUc) which is less or equal to 0.3 V. | 10-31-2013 |
20130286542 | SUPER CAPACITOR OF HIGH SPECIFIC CAPACITY AND ENERGY DENSITY AND THE STRUCTURE OF SAID SUPER CAPACITOR - This invention provides a method of manufacture of the electrochemical system of the electric double layer prismatic capacitor from electrically connected in parallel of semi-wound packages of micro/mesoporous carbon composite electrode pairs separated by porous cage. According to the method the pre-made carbon film will be covered with a layer of aluminum foil layer using a vacuum deposition method thus forming a current collector of an electrochemical system. Subsequently the pairs of electrodes are formed from a carbon composite electrode which are wounded or flipped to flat packages so that the ends of current collectors protruding from folded packages are joined together in parallel and thereafter the ends of current collectors are connected correspondingly to the positive and negative current terminal of the electric double layer capacitor. | 10-31-2013 |
Patent application number | Description | Published |
20090065748 | Composite Materials for Infrared Sensing Markers - The present invention discloses composite materials for distant laser sensing in the infrared spectral region. The composites are disclosed to consist of the conductive polymer, the infrared active compound and the thermoplastic matrix polymer. | 03-12-2009 |
20100224819 | METHOD FOR MANUFACTURING OF A SMART PACKAGING MATERIAL - This invention discloses a method for manufacturing of the smart packaging materials and tagging technique of using frequency identification of magnetically active compounds with different signal positions. The different concentrations of the differently substituted compounds generate a vast number of different tag codes. The compounds used belong to the classes of organic magnetically active compounds or polymers that are compatible with an in-melting process of most packaging polymeric materials. This allows the magnetically active compounds to be incorporated in polymeric materials for durable tracking and identification purposes. | 09-09-2010 |
20110171287 | Use of Oligonucleotides with Modified Bases as Antiviral Agents - The present invention relates to the use of oligonucleotides having modified nucleobases to inhibit gene expression and/or replication of viruses in a subject. The modified nucleobases may be mercapto-modified bases or hydroxy-modified nucleobases. It is contemplated that the oligonucleotides further comprise a nuclease complex which enhances anti-viral activity of the oligonucleotides. | 07-14-2011 |
20120171279 | STRONGLY BOUND BASE-MODIFIED OLIGONUCLEOTIDES - The present invention provides compounds having a chelating moiety and an oligonucleotide sequence wherein the oligonucleotide includes one or more modified nucleobases, such as hydroxynucleobases. The disclosed compounds are suitable for antisense therapy. The chelating moiety can be complexed to an ion of a lanthanide metal. These compounds are efficient translation inhibitors of nucleic acids and have increased binding affinity for target nucleic acids. The invention also includes compositions and methods of using these compositions as antisense therapy. | 07-05-2012 |
20160136159 | Method for Treating Peripheral Neuropathy - A method of treating or preventing peripheral neuropathy in a subject determined to be in need thereof comprising: topically administering to the subject an anti-peripheral neuropathic compound acting as GFRα3 type receptor agonist. | 05-19-2016 |
Patent application number | Description | Published |
20100208712 | Enhancing WLAN performance in the presence of interference - A wireless access point coherently receives signals transmitted from client devices and from interfering devices, measures noise and interference capture samples from the received signals, and computes a characterization of noise plus interference. Receive gains and threshold levels are adjusted based on the computed noise plus interference characterization. A set of weights for an interference suppression spatial filter are calculated from the measured noise and interference capture samples and used to produce a filtered signal by spatially filtering the received signals such that interference is spatially nulled in the filtered signal. The method may also include setting PHY parameters at the wireless access point based on the computed noise plus interference characterization. In some embodiments, a protection transmission is transmitted from the wireless access point, requesting connected client devices to suspend transmissions during a specified time period. | 08-19-2010 |
20130172007 | Single-Site Localization via Multipath Fingerprinting - Single-site localization of wireless emitters in a rich multipath environment is presented. The localization method is based on exploiting the spatio-temporal characteristics of the multipath signals, referred to as the multipath fingerprint, as captured by the base station antenna array. The method is applicable to all modern communication techniques such as WiFi and LTE and to any rich multipath environment in indoors and outdoors. | 07-04-2013 |
20140301511 | METHOD AND SYSTEM FOR MULTIPATH FINGERPRINTING BY MAXIMUM DISCRIMINATION TECHNIQUES - Discriminative methods for multipath fingerprinting, enabling single-site localization in rich multipath environments, are provided herein. In contrast to the existing descriptive method that uses only the data of each location for its fingerprint extraction, these methods use also the data of the other locations in the database, and leverage it to make the fingerprint as different as possible from the other fingerprints in the database. The performance of these methods, validated with both simulated and real data, is superior to the existing method, demonstrating localization accuracy of about 1 m in typical indoor environments. | 10-09-2014 |