Patents Examined by Rebecca M Fritchman
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Patent number: 9316594Abstract: A carbon dioxide detector including a sensor component, where the sensor component has a colorimetric indicator salt of a colorimetric pH indicator and a lipophilic phosphonium quaternary cation, a transparent polymer vehicle or a plasticizer not being in a mixture with the colorimetric indicator salt; and a porous memory, a porous polymer membrane in one instance, the colorimetric indicator salt being deposited on a surface of the porous polymer membrane; the colorimetric indicator salt deposited on the porous polymer membrane does not include a transparent polymer vehicle or a plasticizer, and carbon dioxide detection systems using the detector.Type: GrantFiled: May 30, 2013Date of Patent: April 19, 2016Assignee: Polestar Technologies, Inc.Inventor: James A. Kane
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Patent number: 9316649Abstract: With this biological sample measuring device, the determination section performs measurement at specific intervals in a first measurement period from the start of measurement until a first time, and performs measurement at specific intervals in a second measurement period that comes after the first measurement period, calculates the difference between the measurement values in corresponding specific periods, and finds a plurality of first difference determination values, on the basis of a plurality of current values measured in the first measurement period and a plurality of current values measured in the second measurement period, finds a second difference determination value by finding the difference at specific intervals in the plurality of first difference determination values, and determines whether or not a reagent movement error and/or exposure error of the biological sample measurement sensor has occurred, on the basis of the first and second difference determination values.Type: GrantFiled: May 10, 2012Date of Patent: April 19, 2016Assignee: Panasonic Healthcare Holdings Co., Ltd.Inventors: Daiki Mizuoka, Hiroyuki Tokunaga, Tsuyoshi Takahashi
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Patent number: 9313418Abstract: A system and method for analysis of fluids, particularly bodily fluids such as saliva, uses an active, electrically-driven substrate for supporting an amalgamate of fluid and nanoparticles selected to adhere to one or more proteins. The nanoparticles affect light that is directed on or through the amalgamate. Different light directions, light polarization planes, and light wavelengths are used to obtain optical properties of the amalgamate. Once obtained, these values are compared to earlier or baseline values to determine a property of the amalgamate. Values or ranges are compared to earlier values, suitably with empirical association with maladies or conditions, to facilitate detection or diagnosis.Type: GrantFiled: May 30, 2013Date of Patent: April 12, 2016Assignee: Toshiba America Electronic Components, Inc.Inventor: Rakesh Sethi
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Patent number: 9309124Abstract: Methods of forming graphene by graphite exfoliation, wherein the methods include: providing a graphite sample having atomic layers of carbon; introducing a salt and a solvent into the space between the atomic layers; expanding the space between the atomic layers using organic molecules and ions from the solvent and the salt; and separating the atomic layers using a driving force to form one or more sheets of graphene; the graphene produced by the methods can be used to form solar cells, to perform DNA analysis, and for other electrical, optical and biological applications.Type: GrantFiled: June 24, 2011Date of Patent: April 12, 2016Assignee: National University of SingaporeInventors: Kian Ping Loh, Junzhong Wang
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Patent number: 9291569Abstract: Optics collection and detection systems are provided for measuring optical signals from an array of optical sources over time. Methods of using the optics collection and detection systems are also described.Type: GrantFiled: March 9, 2015Date of Patent: March 22, 2016Assignee: Pacific Biosciences of California, Inc.Inventors: Adrian Fehr, Nathaniel Joseph McCaffrey, Stephen Turner
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Patent number: 9291632Abstract: An automated platelet function analyzer includes a sampling vessel, a preparation vessel, an analysis vessel, a sampling needle, a blood sample syringe, a platelet agonist syringe, an analysis solution syringe and a blood mixing device. A method for platelet analysis is also disclosed.Type: GrantFiled: January 14, 2014Date of Patent: March 22, 2016Assignee: Sinnowa Medical Science & Technology Co., Ltd.Inventors: Xin Xu, Ziquan Dong, Ning Cao, Xiang Li, Fan Yu, Weijie Yang
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Patent number: 9291619Abstract: A method of quantifying non-transferrin bound iron (NTBI) in a biological fluid is provided, the method comprising: (a) contacting a sample of the biological fluid with a reducing agent to obtain redox-active iron; (b) contacting the sample of the biological fluid with a nitrilotriacetate (NTA) at a concentration of 0.4-2 mM to mobilize non-transferrin bound iron including redox inactive and the redox active iron in the sample; (c) contacting the sample of the biological fluid of step (b) with an indicator including an iron binding moiety and fluorophore; and (d) detecting and quantifying a fluorescent signal of the fluorophore thereby quantifying the NTBI in the biological sample.Type: GrantFiled: October 4, 2012Date of Patent: March 22, 2016Assignee: Yissum Research Development Company of the Hebrew University of Jerusalem Ltd.Inventors: Ioav Zvi Cabantchik, William Breuer
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Patent number: 9267896Abstract: According to the present invention, there is provided a method of determining a concentration of uranium including: a) a primary measuring step of measuring luminescence intensity or luminescence attenuation of uranium (VI) of an oxidant added sample obtained by adding an oxidant composition to a detection target sample; b) a secondary measuring step of adding different volumes of standard solution containing uranium (VI) having a predetermined concentration to a plurality of oxidant added samples, respectively, and then measuring luminescence intensity or luminescence attenuation of uranium (VI) contained in each standard solution added sample; and c) a calculating step of calculating a concentration of uranium (VI) contained in the detection target sample by a standard addition method based on the primary and secondary measurements. With the method for determining a concentration of uranium according to the present invention, the concentration of uranium may be further rapidly and accurately analyzed.Type: GrantFiled: December 28, 2012Date of Patent: February 23, 2016Assignee: KOREA ATOMIC ENERGY RESEARCH INSTITUTEInventors: Wan-Sik Cha, Euo-Chang Jung, Hye-Ryun Cho
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Patent number: 9261493Abstract: This invention relates to a method of quantitative analysis of hexavalent chromium in a chromate coating on a substrate. In this method a substrate on which the chromate coating is formed is immersed into an aqueous solution containing lithium hydroxide to extract hexavalent chromium within an extraction solution. Quantitative analysis of extracted hexavalent chromium in the extraction solution is then performed.Type: GrantFiled: June 14, 2012Date of Patent: February 16, 2016Assignee: KABUSHIKI KAISHA TOSHIBAInventors: Tetsuya Tachibe, Mitsuhiro Oki, Miyuki Takenaka
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Patent number: 9243993Abstract: A sample analyzer capable of operating in a first measuring mode for measuring a sample and a second measuring mode for measuring a sample, comprising: a sample provider for providing a sample; a common reagent provider for providing a common reagent used in the first measuring mode and the second measuring mode; a special reagent provider for providing a special reagent used in the second measuring mode; a mode selector for selecting one of the first measuring mode and the second measuring mode; a measuring section for measuring the sample; and wherein in the first measuring mode, the sample provider and the common reagent provider operate so as to make a first mode sample comprising the sample and the common reagent, and the measuring section operates so as to measure the first mode sample, and in the second measuring mode, the sample provider, the common reagent provider and the special reagent provider operate so as to make a second mode sample comprising the sample, the common reagent and the special reaType: GrantFiled: March 14, 2006Date of Patent: January 26, 2016Assignee: SYSMEX CORPORATIONInventors: Takaaki Nagai, Masaharu Shibata, Noriyoshi Yoshida, Shoichiro Asada
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Patent number: 9234901Abstract: Provided are methods of detecting the presence or amount of the active form of vitamin B6, pyridoxal 5?-phosphate, in a body fluid sample using tandem mass spectrometry coupled with liquid chromatography.Type: GrantFiled: August 11, 2011Date of Patent: January 12, 2016Assignee: Quest Diagnostics Investments IncorporatedInventors: Qibo Jiang, Sum Chan, Richard Reitz
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Patent number: 9228144Abstract: The present invention relates to a biofuel composition comprising normal chain alcohol(s), natural oils and diesel optionally along with fuel additive(s); a process of preparation and a method of fueling said biofuel composition.Type: GrantFiled: August 10, 2009Date of Patent: January 5, 2016Assignee: BIGTEC PRIVATE LIMITEDInventors: Chandrasekhar Bhaskaran Nair, Pillarisetti Venkata Subbarao, Phani Kumar Pullela, Gopalakrishna Mangalore Kini
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Patent number: 9228985Abstract: The present invention relates to a catalysis apparatus for testing catalysts with variable process pressure adjustment over a pressure range from 0.01 millibar to 300 bar. The apparatus preferably has a plurality of reaction chambers (101, 102, . . . ) arranged in parallel, the reaction chamber outlet-side lines (211, 212, . . . ) of which are divided into two groups of sub-lines. One group of main lines (411, 412, . . . ) is operatively connected to a regulating valve (61), which is common to all of the main lines, and to an exhaust-air line (62), and the second group of secondary lines (311, 312, 313, . . . ) and switching valves (321, 322, . . . ) is operatively connected to an analysis unit (34). It is preferable for reaction chamber outlet-side lines (201, 202, . . . ) to be equipped in each case with a separate line for regulating fluid supply (211, 212, . . . ). In a preferred embodiment, the connecting points of the reaction chamber outlet-side lines (201, 202, . . .Type: GrantFiled: October 17, 2011Date of Patent: January 5, 2016Assignee: hte GmbH the high throughput experimentation companyInventors: Armin Lange De Oliveira, Michael Dejmek, Oliver Koechel, Juergen Bechtel
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Patent number: 9212993Abstract: A system for the measurement of free and bound SO2 in a liquid beverage product sample comprising a sample container having a volume sufficient to provide a headspace above the sample into which a gas can pass; a gas flow system adapted to extract gas from the headspace and recirculating it back into the liquid volume; a measurement system configured to monitor a time dependent evolution of SO2 in gas from the gas flow system; and a dosing apparatus fluidly connected to the container to supply an hydrolysis reagent thereto. A heater unit is provided for supplying thermal radiation into the container to elevate the temperature of sample therein sufficient to facilitate the hydrolysis reaction and a signal processor operates to deconvolute the monitored evolution to generate an indication of the concentration of each of the free SO2 and the total SO2 content of the sample.Type: GrantFiled: November 30, 2010Date of Patent: December 15, 2015Assignee: FOSS ANALYTICAL A/SInventor: Henrik Thomsen
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Patent number: 9194851Abstract: Methods and materials for the detection of melamine in test samples such as foodstuffs are described. Embodiments of the invention comprise combining a test sample suspected of containing melamine with a particle that produces a colorimetric and/or turbidimetric signal that is dependent upon the concentration of melamine in the test sample. In certain embodiments of the invention, the particles and test sample are combined together with a chemical compound selected to induce the aggregation melamine in a manner that amplifies the colorimetric and/or turbidimetric signal of the assay. In some embodiments of the invention, the aggregation inducing agent is not physically coupled to the particles used in the assays. In other embodiments of the invention, the aggregation inducing agent is physically coupled to the particles used in these assays.Type: GrantFiled: June 4, 2014Date of Patent: November 24, 2015Assignee: THE REGENTS OF THE UNIVERSITY OF CALIFORNIAInventors: Na Li, Fang Wei
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Patent number: 9163189Abstract: Balanced unleaded fuel compositions exhibiting: a pump octane rating of greater than 93; a T50 (maximum) of 104.4° C. (220° F.) and a T90 (maximum) of 165.6° C. (330° F.), as required under the CARB Phase 3 model; and, producing a higher average torque and/or higher average power output than commercially available fuels stated to meet the CARB Phase 3 model.Type: GrantFiled: November 30, 2012Date of Patent: October 20, 2015Assignee: Shell Oil CompanyInventors: Joseph Michael Russo, Timothy Michael Shea
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Patent number: 9133512Abstract: This invention discloses systems and methods for determining the sequence of amino acids in a short peptide chain that constructs a protein. The protein is firstly hydrolyzed to various short peptides and amino acid enantiomers. Then, the systems and method are used to separate the short peptides and the amino acid enantiomers, identify qualitatively each of the amino acid enantiomers, and obtain the molecular mass signal for each of the peptides. After that, the identified amino acid enantiomers are used to construct any possible short peptides in an order from the smallest molecular weight dipeptide to higher molecular weight short peptides, and the correct short peptides is confirmed by matching the molecular weight obtained from the mass spectrometry measurement, then, the short peptides are combined to give a large peptide. The process is continued until the whole amino acid sequence of the peptide chain of protein can be determined.Type: GrantFiled: March 25, 2013Date of Patent: September 15, 2015Assignee: Chung Yuan Christian UniversityInventors: Chean-Yeh Cheng, Li-Te Yu
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Patent number: 9116104Abstract: An apparatus and method for measuring the concentrations of oil, water and/or hydrates in a multiphase production fluid flow comprises measuring the complex permitivities, both real and imaginary parts, of the flow at at least two frequencies. One dispersive and one non-dispersive frequency are used. In one embodiment at least three frequencies may be selected, one of which is below about 1 MHz while the other two are within the dispersive and non-dispersive ranges for water. In this embodiment water may be distinguished from hydrates and both measured simultaneously.Type: GrantFiled: March 22, 2006Date of Patent: August 25, 2015Assignee: Agar Corporation, Ltd.Inventors: Joram Agar, Efim Metsner
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Patent number: 9089829Abstract: This invention relates to a sonic device (and a method) for enhancing a process involving a solid object and a gas, where the gas surrounds the object or at least is in contact with a surface of the object, the device comprising sonic means for applying a high intensity sound or ultrasound to at least the surface object, wherein the high intensity sound or ultrasound, during use of the sonic device, is applied directly in the gas that is also the medium through which the high intensity sound or ultrasound propagates to the surface of the object, whereby a laminar sub-layer at the surface of the object is reduced and/or minimized. The reduction of the laminar sub-layer provides increased heat transfer efficiency and/or increased catalytic speed and/or increased gas exchange.Type: GrantFiled: March 21, 2013Date of Patent: July 28, 2015Assignee: Force TechnologyInventor: Niels Krebs
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Patent number: 9063113Abstract: An apparatus for detecting a chemical of interest in a fluid or estimating a concentration of the chemical in the fluid includes: a carrier configured to be conveyed through a borehole penetrating an earth formation; a first temperature sensor disposed at the carrier and configured to sense a temperature of the fluid and provide a first temperature output; and a second temperature sensor disposed at the carrier and covered with an exothermic reaction material that experiences an exothermic reaction when exposed to the chemical of interest and configured to sense a temperature and provide a second temperature output. The apparatus further includes a processor coupled to the first temperature sensor and the second temperature sensor and configured to detect the chemical or estimate the concentration using the first temperature output and the second temperature output.Type: GrantFiled: January 29, 2013Date of Patent: June 23, 2015Assignee: Baker Hughes IncorporatedInventor: Rocco DiFoggio