Patent application number | Description | Published |
20110154510 | AUTOMATED HIGH-CONTENT LIVE ANIMAL DRUG SCREENING USING C. ELEGANS - The present invention relates to methods and compositions for high content drug screening in | 06-23-2011 |
20130024953 | Methods of Treating Disorders Associated with Protein Aggregation - The present invention relates to methods of treatment of clinical disorders associated with protein aggregation comprising administering, to a subject, an effective amount of an anti-protein aggregate (“APA”) compound selected from the group consisting of pimozide, fluphenazine (e.g., fluphenazine hydrochloride), tamoxifen (e.g., tamoxifen citrate), taxol, cantharidin, cantharidic acid, salts thereof and their structurally related compounds. It is based, at least in part, on the discovery that each of the aforelisted compounds were able to promote degradation of aggregated ATZ protein in a | 01-24-2013 |
20140047569 | Methods of Treating Disorders Associated with Protein Aggregation - The present invention relates to methods of treatment of clinical disorders associated with protein aggregation comprising administering, to a subject, an effective amount of an anti-protein aggregate (“APA”) compound selected from the group consisting of pimozide, fluphenazine (e.g., fluphenazine hydrochloride), tamoxifen (e.g., tamoxifen citrate), taxol, cantharidin, cantharidic acid, salts thereof and their structurally related compounds. It is based, at least in part, on the discovery that each of the aforelisted compounds were able to promote degradation of aggregated ATZ protein in a | 02-13-2014 |
20140331341 | AUTOMATED HIGH-CONTENT LIVE ANIMAL DRUG SCREENING USING C. ELEGANS - The present invention relates to methods and compositions for high content drug screening in | 11-06-2014 |
20150265626 | METHODS OF TREATING DISORDERS ASSOCIATED WITH PROTEIN AGGREGATION - The present invention relates to methods of treatment of clinical disorders associated with protein aggregation comprising administering, to a subject, an effective amount of an anti-protein aggregate (“APA”) compound selected from the group consisting of pimozide, fluphenazine (e.g., fluphenazine hydrochloride), tamoxifen (e.g., tamoxifen citrate), taxol, cantharidin, cantharidic acid, salts thereof and their structurally related compounds. It is based, at least in part, on the discovery that each of the aforelisted compounds were able to promote degradation of aggregated ATZ protein in a | 09-24-2015 |
Patent application number | Description | Published |
20080199618 | Method of Strengthening a Brittle Oxide Substrate with a Weatherable Coating - The present invention relates to a method of strengthening brittle oxide pieces such as glass pieces with a siloxane-acrylate coating system that has superior weatherability, particularly hydrolytic stability. The coating system comprises a combination of a silane solution and a radiation-curable acrylate solution. The mixture is applied to a clean, brittle oxide surface. The silane solution comprises one or more silanes in a non-aqueous solvent and the radiation-curable acrylate solution comprises one or more acrylate or methacrylate monomers, acrylate or methacrylate oligomers, and initiators, such as photoinitiators. | 08-21-2008 |
20090022997 | Transparent Conductive Oxide Films Having Enhanced Electron Concentration/Mobility, and Method of Making Same - A variety of new n-type TCO films including films with dopants having ionic sizes that approximate those of the metal oxide host material, films with stabilized rutile MO | 01-22-2009 |
20100117035 | ELECTROCONDUCTIVE TIN OXIDE HAVING HIGH MOBILITY AND LOW ELECTRON CONCENTRATION - Tin oxide having high mobility and a low electron concentration, and methods for producing layers of the tin oxide layers on a substrate by atmospheric pressure chemical vapor deposition (APCVD) are disclosed. The tin oxide may undoped polycrystalline n-type tin oxide or it may be doped polycrystalline p-type tin oxide. When the layer of tin oxide is formed on a crystalline substrate, substantially crystalline tin oxide is formed. Dopant precursors for producing doped p-type tin oxide are also disclosed. | 05-13-2010 |
20120126273 | OLED SUBSTRATE CONSISTING OF TRANSPARENT CONDUCTIVE OXIDE (TCO) AND ANTI-IRIDESCENT UNDERCOAT - A light-emitting devices and methods for forming light-emitting devices are provided. The device comprises of a substrate having a first refractive index, a transparent electrode that is coupled to an organic layer, where the transparent electrode has a second refractive index different from the first refractive index. An undercoat layer is selected that has a third refractive index to substantially match the first refractive index to the second refractive index. The undercoat layer is selected such that it has a capacity to reduce root mean square roughness of the transparent electrode film deposited. The undercoat layer is selected to improve electrical properties of the transparent electrode layer. The undercoat layer is provided between the substrate and the transparent electrode. | 05-24-2012 |
20130122192 | CHEMICAL VAPOR DEPOSITION USING N,O POLYDENTATE LIGAND COMPLEXES OF METALS - Complexes of metals and N,O polydentate ligands are useful as precursors in the preparation of doped zinc oxide coatings by chemical vapor deposition. | 05-16-2013 |
Patent application number | Description | Published |
20120225320 | DEPOSITION OF DOPED ZnO FILMS ON POLYMER SUBSTRATES BY UV-ASSISTED CHEMICAL VAPOR DEPOSITION - The invention provides a method of forming a layer on a polymer substrate comprises a polymer substrate with at least one precursor, and applying ultraviolet light to decompose the at least one precursor and deposit a layer onto the polymer substrate. Also provided is a doped layer comprising zinc oxide deposited on a polymer substrate obtained by introducing at least one precursor comprising zinc and a dopant into a vessel containing a polymer substrate, and applying an ultraviolet light to decompose the at least one precursor and to deposit a layer comprising doped zinc oxide onto the polymer substrate. | 09-06-2012 |
20140042422 | INTERNAL OPTICAL EXTRACTION LAYER FOR OLED DEVICES - A light-emitting device, which improves the light output of organic light emitting diodes (OLEDs), includes at least one porous metal or metalloid oxide light extraction layer positioned between the substrate and the transparent conducting material layer in the OLED. The index of refraction of the light extraction layer and the light scattering may be tuned by changing the pore size, pore density, doping the metal oxide, adding an insulating, conducting or semiconducting component, or filling the pores, for example. A method for forming the light-emitting device includes forming at least one light extraction layer comprising a porous metal or metalloid oxide on a substrate, for example, using atmospheric pressure chemical vapor deposition (APCVD), and subsequently, forming a transparent conducting material on the light extraction layer. | 02-13-2014 |
Patent application number | Description | Published |
20100076835 | VARIABLE INCENTIVE AND VIRTUAL MARKET SYSTEM - A method of and system for providing an incentive program for conserving a consumable resource such as electricity, natural gas, oil, air or water. The present invention monitors utilization of the resource at a location, and then determines a type and quantity of variable resource points to be provided to an account associated with the location or with a participant by analyzing the monitored resource utilization with respect to a plurality of varying conditions (time-variant, location-variant, cost-variant etc.). These conditions may be independent or interdependent; these relationships will be incorporated into the calculations resulting in the award of the type and quantity of resource points determined by the Program. The resource points are then stored in an account associated with the location or with a participant for future use. | 03-25-2010 |
20120271686 | METHOD AND SYSTEM FOR THE MORE EFFICIENT UTILIZATION AND CONSERVATION OF ENERGY AND WATER RESOURCES - A method of and system for providing an incentive program for conserving a consumable resource such as electricity, natural gas, oil, air or water. The present invention monitors utilization of the resource at a location, and then determines a type and quantity of variable resource points to be provided to an account associated with the location or with a participant by analyzing the monitored resource utilization with respect to a plurality of varying conditions (time-variant, location-variant, cost-variant etc.). These conditions may be independent or interdependent; these relationships will be incorporated into the calculations resulting in the award of the type and quantity of resource points determined by the Program. The resource points are then stored in an account associated with the location or with a participant for future use. | 10-25-2012 |
20130035992 | METHOD AND SYSTEM FOR THE MORE EFFICIENT UTILIZATION AND CONSERVATION OF ENERGY AND WATER RESOURCES - A method of and system for providing a consumable resource such as electricity, natural gas, oil, air or water together with an incentive program of variable resource points to reward the buyer for not using the resource being provided. The invention monitors utilization of the resource at a location, and then determines a type and quantity of variable resource points to be provided to an account associated with the location or with a participant by analyzing the monitored resource utilization with respect to a plurality of varying conditions (time-variant, location-variant, cost-variant etc.). The resource points are then stored in an account associated with the location or with a participant for future use. | 02-07-2013 |
20140297001 | SYSTEM AND METHOD FOR ADAPTIVE AUTOMATED RESOURCE MANAGEMENT AND CONSERVATION - Systems, methods, and devices to provide simple adaptive automated resource management of a resource system (such as but not limited to electricity, natural gas, water, data, bandwidth allocation, access to information, etc.) on a local basis, based on automatically detecting, measuring and combining time-varying resource provider preferences, resource market conditions, resource supply source conditions, environmental conditions and resource system impact on the environment, together with resource user locations, user priorities and preferences, and information about other conditions that may be relevant to the operation of the resource management system in order to optimize performance of the resource system to better meet or approach defined goals, and to measure and display the results achieved by the resource management system compared against those goals. | 10-02-2014 |
20140297206 | Universal Smart Energy Transformer Module - A universal smart energy transformer module (USETM) that uses an array of sensors to monitor and measure characteristics of the electrical power delivered and utilized at a location, along with other conditions in the area surrounding the location. The invention then uses the data from these sensors to determine the condition and performance of the transformer (for example, its input and output, power quality etc.) and also to identify any anomalies detected within the local power system that could threaten reliable electric supply on the electric grid, or pose a danger to people. A notification of such condition may be distributed using the secure, uninterruptible communications system. | 10-02-2014 |
20140316876 | METHOD AND SYSTEM FOR THE MORE EFFICIENT UTILIZATION AND CONSERVATION OF ENERGY AND WATER RESOURCES - A method of and system for providing an incentive program for conserving a consumable resource such as electricity, natural gas, oil, air or water. The present invention monitors utilization of the resource at a location, and then determines a type and quantity of variable resource points to be provided to an account associated with the location or with a participant by analyzing the monitored resource utilization with respect to a plurality of varying conditions (time-variant, location-variant, cost-variant etc.). These conditions may be independent or interdependent; these relationships will be incorporated into the calculations resulting in the award of the type and quantity of resource points determined by the Program. The resource points are then stored in an account associated with the location or with a participant for future use. | 10-23-2014 |