| Patent application number | Description | Published |
|---|
| 20080304541 | Ranking Fragment Types with Calorimetry - Test and reference groups of samples can be provided and concurrently combined and output signals can be provided. Each sample can have a volume not exceeding approximately 100 microliters, and each group can be provided in a region, such as in a cell of an array calorimeter. Each test group can include at least one fragment sample and one target sample, and its reference group can include similar samples. The output signals can include information about heat of reaction due to combining the fragment and target samples. For each target type, the output signals can be used to rank fragment types. For example, a subset of fragment types that react with the target type can be identified; an equilibrium constant or ligand efficiency can be obtained for each such fragment type; or a rank ordering can be obtained of such fragment types. | 12-11-2008 |
| 20090260425 | OSMOTIC REACTION DETECTOR FOR MONITORING BIOLOGICAL AND NON-BIOLOGICAL REACTIONS - An apparatus and system for measuring the presence or absence of reaction between a first and second material of interest by measuring osmotic pressure changes of reaction detector. The reaction detector is capable of measuring the small changes in pressure that occur due to osmotic pressure shifts during a catalytic or binding reaction at species concentrations down to approximately 10 | 10-22-2009 |
| 20090320573 | OSMOTIC REACTION DETECTOR FOR MONITORING BIOLOGICAL AND NON-BIOLOGICAL REACTIONS - A method and apparatus for measuring the presence or absence of reaction between a first and second material of interest by measuring osmotic pressure changes in a reaction cell. The reaction cell is capable of measuring the small changes in pressure that occur due to osmotic pressure shifts during a catalytic or binding reaction at species concentrations down to approximately 10 | 12-31-2009 |
| 20100005959 | Separating Gas Using Immobilized Buffers - A layered structure can be formed having immobilized or segregated pH buffering groups that can be used to separate carbon dioxide or other gases. The pH buffering groups can be immobilized within a matrix, confined within a gel, or segregated by a semi-permeable membrane. The pH buffering groups can be configured to increase the efficiency of the system by maintaining a desirable pH profile within the cell and to permit the flow of the carbon-containing ions within the system while controlling diffusion of protons and/or hydroxyl ions. | 01-14-2010 |
| 20100045993 | METHOD OF DETECTING ANALYTE - A system and method is provided for detecting concentration of an analyte in a fluid. The method comprises detecting an optical property of a first region of two or more regions in a system, the first region located in a container having a reservoir for one or more modifiers of one or more optical properties of the first region. The movement of the one or more modifiers is responsive to changes in concentration of the analyte. A next step detects an optical property of a second region of the two or more regions in the system, the second region located in a container having a reservoir for one or more modifiers of one or more optical properties of the second region. The movement of the one or more modifiers is responsive to changes in concentration of a compound, where the compound is something other than the analyte. The detected optical property of the first region and the detected optical property of the second region are used in embodiments to separate the effect of the analyte on the detected optical property of the first region from the effect of the compound, where the compound is an interfering compound. | 02-25-2010 |
| 20100049015 | SPECIFICITY OF ANALYTE DETECTION IN ETALONS - A system and method is provided for detecting concentration of an analyte in a fluid. A first container includes (i) an optical cavity detection region, (ii) a reservoir for one or more modifiers of one or more optical properties of the optical cavity detection region, and (iii) a set of one or more bounding regions through which objects in the fluid can transfer into the container. The optical cavity detection region and the reservoir define separate areas of the first container. The movement of the one or more modifiers between the reservoir and the optical cavity detection region is responsive to changes in concentration of the analyte. A second container includes an optical cavity detection region, and a set of one or more bounding regions through which objects in the fluid can transfer into the container. Also provided are optical components for guiding light into the optical cavity detection regions of the first and second containers. | 02-25-2010 |
| 20100059377 | SYSTEM AND METHOD FOR RECOVERY OF CO2 BY AQUEOUS CARBONATE FLUE GAS CAPTURE AND HIGH EFFICIENCY BIPOLAR MEMBRANE ELECTRODIALYSIS - A system and method for recovery of CO | 03-11-2010 |
| 20100185037 | DRUG DEACTIVATION SYSTEM AND METHOD OF DEACTIVATING A DRUG USING THE SAME - A drug deactivation system according to some embodiments includes at least one drug-retaining region of a drug delivery device and at least one energy source coupled to the at least one drug-retaining region. The at least one drug-retaining region may be configured to retain a drug. The at least one energy source may be configured to transmit energy to the drug. The drug is capable of being rendered ineffective in the presence of the transmitted energy. | 07-22-2010 |
| 20100185038 | DRUG DEACTIVATION SYSTEM AND METHOD OF DEACTIVATING A DRUG USING THE SAME - A drug deactivation system according to some embodiments includes at least one degradable capsule exposed to at least one drug-retaining region of a drug delivery device and an agent. The agent is configured to render a drug ineffective upon degradation of the at least one capsule. The at least one drug-retaining region is configured to retain one of the drug and the agent and the at least one capsule is configured to retain the other of the drug and the agent. | 07-22-2010 |
| 20100290501 | NANOCALORIMETER BASED ON THERMAL PROBES - A nanocalorimeter includes a merging layer having, a drop placement area for holding drops to be merged and a thermal equilibration area. A measurement layer includes a substrate, and a temperature probe on the substrate, wherein the temperature probe extends out of the surface of the substrate to come into operative contact with the thermal equilibration area when the measurement layer is placed in operative association with the merging layer. The nanocalorimeter is configured to have the merging layer and the measurement layer non-integrated, making the measurement layer reusable. | 11-18-2010 |
| 20110039193 | SOLID INKS FOR PRINTED MASKS - A printed mask derived from a composition comprised of at least one compound including at least one alkaline-hydrolyzable group, and at least one compound including at least one ethylene oxide group. The printed mask is removable using an alkaline solution in about 30 seconds or less. | 02-17-2011 |
| 20110039194 | SOLID INKS FOR MASKS FOR PRINTED CIRCUIT BOARDS AND OTHER ELECTRONIC DEVICES - A printed mask derived from a composition comprised of at least one compound including at least one alkaline-hydrolyzable group, at least one compound including at least one ethylene oxide group and at least one ultraviolet radiation blocking agent, wherein the printed mask is removable using an alkaline solution in about 30 seconds or less. | 02-17-2011 |
