Patents Examined by Jennifer Wecker
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Patent number: 12169192Abstract: The present disclosure provides methods for identifying a hydrocarbon fuel, such as the presence and/or amounts of marker compounds having a fluorescence intensity and, through correlation, the presence and/or amounts of additive package(s) within the hydrocarbon fuel. The methods include obtaining a sample of a hydrocarbon fuel including a marker compound having fluorescence, combining the hydrocarbon fuel with water, and subjecting a water phase thereof to light for observing fluorescence.Type: GrantFiled: November 2, 2020Date of Patent: December 17, 2024Assignee: AFTON CHEMICAL CORPORATIONInventors: Scott D. Schwab, Dana Anderson
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Patent number: 12168798Abstract: This disclosure provides an integrated and automated sample-to-answer system that, starting from a sample comprising biological material, generates a genetic profile in less than two hours. In certain embodiments, the biological material is DNA and the genetic profile involves determining alleles at one or a plurality of loci (e.g., genetic loci) of a subject, for example, an STR (short tandem repeat) profile, for example as used in the CODIS system. The system can perform several operations, including (a) extraction and isolation of nucleic acid; (b) amplification of nucleotide sequences at selected loci (e.g., genetic loci); and (c) detection and analysis of amplification product. These operations can be carried out in a system that comprises several integrated modules, including an analyte preparation module; a detection and analysis module and a control module.Type: GrantFiled: December 11, 2020Date of Patent: December 17, 2024Assignee: INTEGENX. INC.Inventors: David Eberhart, Yuan Li, James Ogg, Ezra Van Gelder, Stephen J. Williams, Timothy Woudenberg, Dean S. Burgi, William D. Nielsen
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Patent number: 12168232Abstract: An exemplary embodiment of the present disclosure provides a fluidic device comprising a substrate, an applicator, and a spacer. The substrate can comprise a plurality of wells. The applicator can be used for manipulating a biological substance in at least a portion of the plurality of wells. The spacer can be positioned between the substrate and the applicator. The spacer can be configured to allow the applicator to apply the biological substance to at least a portion of the plurality of wells while maintaining a space between the substrate and the applicator.Type: GrantFiled: October 12, 2021Date of Patent: December 17, 2024Assignee: Georgia Tech Research CorporationInventors: Gongchen Sun, Hang Lu
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Patent number: 12168230Abstract: The invention provides a microdroplet- or bubble-producing device that does not require separate through-holes for different liquid droplet/air bubble-producing flow channels. The droplet-producing flow channels are configured in a three-dimensional manner unlike in a conventional device where they are configured in a two-dimensional plane, and therefore the flow channels can be provided in a more high-density configuration than the prior art.Type: GrantFiled: February 28, 2019Date of Patent: December 17, 2024Assignee: Japan Science and Technology AgencyInventors: Takasi Nisisako, Naotomo Tottori
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Patent number: 12163932Abstract: A configurable injector for injecting a fluidic sample in a separation path of a sample separation apparatus includes a sample accommodation volume for accommodating the fluidic sample to be injected into the separation path, a valve arrangement fluidically couplable with the separation path, fluidically coupled with the sample accommodation volume, and being controllable for injecting the fluidic sample into the separation path, an input interface configured for receiving input data indicative of an injection profile of an injector to be emulated by the configurable injector, and a control unit configured for controlling the configurable injector, in particular the valve arrangement, so that the configurable injector is operated in accordance with the injection profile to thereby emulate the injector to be emulated.Type: GrantFiled: December 14, 2018Date of Patent: December 10, 2024Assignee: Agilent Technologies, Inc.Inventor: Thomas Ortmann
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Patent number: 12163937Abstract: An embodiment provides a method for deriving an amount of PFAS substances from a total organic fluoride measurement in a sample, including: removing inorganic fluoride from the sample using one or more of an ion exchange cartridge and an exclusion apparatus; preconcentrating, using a solid phase extraction, at least one PFAS substance in the sample; digesting, using a working electrode and a counter electrode, the at least one PFAS substance to an amount of total organic fluoride; and determining, using an analyzer, the amount of total organic fluoride in the sample. Other aspects are described and claimed.Type: GrantFiled: January 20, 2022Date of Patent: December 10, 2024Assignee: HACH COMPANYInventors: Vishnu Vardhanan Rajasekharan, Cary Burton Jackson, Matthew Ryan Salzer, Dan Jonathan Kroll
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Patent number: 12162008Abstract: Methods of partition-based analysis. In an exemplary method, a device having a port fluidically connected to a chamber may be selected. A sample-containing fluid may be placed into the port. The sample-containing fluid may be moved from the port to the chamber. Partitions of the sample-containing fluid may be formed. A monolayer of the partitions in the chamber may be created. At least a portion of the monolayer may be imaged.Type: GrantFiled: September 27, 2021Date of Patent: December 10, 2024Assignee: Bio-Rad Laboratories, Inc.Inventors: Billy Wayne Colston, Jr., Benjamin Joseph Hindson, Kevin Dean Ness, Donald Arthur Masquelier, Fred Paul Milanovich, Douglas N. Modlin, Vincent Riot, Samuel Burd, Anthony Joseph Makarewicz, Jr., Phillip Belgrader
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Patent number: 12163171Abstract: A method for amplifying nucleic acids by a polymerase chain reaction in a reaction volume heated using electrical energy. In at least one of the passages of the amplification cycle of the polymerase chain reaction, the ratio of the electrical energy used in the denaturation step to heat the reaction volume to the size of the reaction volume is less than 20 Joule per milliliter. Further shown is a method of amplifying nucleic acids in a reaction volume by using a device that includes a reaction vessel and a heating means with at least one heating element in contact with the reaction volume where at least one heating element is conjugated to oligonucleotides. Also shown is a device for the amplification of nucleic acids in a reaction volume including a reaction vessel for receiving the reaction volume and a heating means consisting of at least one heating element contacting the reaction volume.Type: GrantFiled: October 20, 2017Date of Patent: December 10, 2024Assignee: HP Health Solutions Germany GmbHInventors: Federico Buersgens, Joachim Stehr, Lars Ullerich, Lidiya Osinkina, Eimantas Ruseckas
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Patent number: 12157124Abstract: A sample holder includes a first member featuring a first retaining mechanism configured to retain a first substrate that includes a sample, a second member featuring a second retaining mechanism configured to retain a second substrate that includes a reagent medium, and an alignment mechanism connected to at least one of the first and second members, and configured to align the first and second members such that the sample contacts at least a portion of the reagent medium when the first and second members are aligned.Type: GrantFiled: October 30, 2020Date of Patent: December 3, 2024Assignee: 10x Genomics, Inc.Inventors: David Maurice Cox, Augusto Manuel Tentori, Rajiv Bharadwaj
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Patent number: 12158409Abstract: Disclosed are a blood analysis system, a blood analyzer, a blood analysis method and a storage medium. The blood analysis method includes: acquiring at least two types of optical signals of a test sample derived from a blood sample, wherein red blood cells in the test sample are lysed, blood cells in the test sample are stained by a fluorescence dye, and the at least two types of optical signals include scattered light signals and/or fluorescent signals; generating a scattergram based on the at least two types of optical signals; identifying a preset region in the scattergram based on the at least two types of optical signals; and acquiring detection data of a platelet subpopulation based on the preset region.Type: GrantFiled: October 23, 2020Date of Patent: December 3, 2024Assignee: Shenzhen Mindray Bio-Medical Electronics Co., Ltd.Inventors: Bo Ye, Huan Qi, Wenbo Zheng, Yi Ye
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Patent number: 12158478Abstract: We describe apparatuses, systems, method, reagents, and kits for conducting assays as well as process for their preparation. They are particularly well suited for conducting automated sampling, sample preparation, and analysis in a multi-well plate assay format. For example, they may be used for automated analysis of particulates in air and/or liquid samples derived therefrom in environmental monitoring.Type: GrantFiled: April 13, 2011Date of Patent: December 3, 2024Assignee: Meso Scale Technologies, LLC.Inventor: Charles M. Clinton
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Patent number: 12157126Abstract: The invention generally relates to systems and methods for synthesizing a reaction product and increasing yield of the same. In certain aspects, the invention provides a multi-mode reaction system in which in a first mode one or more valves of the system are configured to cause reagents to flow from one or more reagent reservoirs of the system through one or more components of the system to generate a reaction product; and in a second mode the one or more valves are configured to change flow within the system such that the one or more reagent reservoirs are isolated from a remainder of the system and the generated reaction product and any remaining reactants are recycled back through the multi-mode reaction system to increase a yield of the reaction product.Type: GrantFiled: February 24, 2021Date of Patent: December 3, 2024Assignee: Purdue Research FoundationInventors: Robert Graham Cooks, Zhenwei Wei
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Patent number: 12151954Abstract: This automated analyzer comprises a first system 11 that does not need to use degassed water, a second system 12 for which it is preferable to use degassed water and that comprises a degassing device 21 for producing degassed water and a second pump 19 for delivering the degassed water, and a tank 1 having formed therein a first compartment 4 for storing water to supply to the first system 11 and a second compartment 5 for storing degassed water to supply to the second system 12. The second system 12 comprises a circulation system, which comprises a suction flow path 20 and return flow path 24 for connecting the degassing device 21, the second pump 19, and the second compartment 5 of the tank 1, and a usage system, which comprises a discharge flow path 22 and connection flow path 27 for connecting the degassing device 21 and a usage unit for using the degassed water.Type: GrantFiled: March 11, 2020Date of Patent: November 26, 2024Assignee: Hitachi High-Tech CorporationInventors: Akihiro Shimase, Kazumi Kusano
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Patent number: 12152010Abstract: The present invention, belonging to the technical field of biological imaging, discloses a photo-activatable aggregation-induced emission probe with in-situ generation capability, a preparation method therefor and an application thereof. The preparation method is as follows: A bis(2-(2-hydroxybenzylidene)amino)aryl disulfide compound is reacted with thiol to obtain a photo-activatable aggregation-induced emission probe, which has a structure as shown in formula III. In the present invention, the photo-activatable aggregation-induced emission probe is aggregated into a specific organelle, and a 2-(2-hydroxyphenyl)benzothiazole compound having the aggregation-induced emission property is generated through a photo-oxidation reaction.Type: GrantFiled: October 18, 2018Date of Patent: November 26, 2024Assignee: SOUTH CHINA UNIVERSITY OF TECHNOLOGYInventors: Ben Zhong Tang, Meng Gao, Shiwu Li
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Patent number: 12151239Abstract: The present invention provides methods and devices for simple, low power, automated processing of biological samples through multiple sample preparation and assay steps. The methods and devices described facilitate the point-of-care implementation of complex diagnostic assays in equipment-free, non-laboratory settings.Type: GrantFiled: May 18, 2022Date of Patent: November 26, 2024Assignee: NOVEL MICRODEVICES, INC.Inventors: Andrea Maria Dominic Pais, Rohan Joseph Alexander Pais
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Patent number: 12153045Abstract: A photonic biosensor including a biological probe disposed on a mid-infrared-transparent waveguide can be used to detect biological analytes in biological samples, using specific binding of the analyte to the probe in conjunction with absorption spectroscopy. In various embodiments, the biosensor is used for molecular diagnostics, e.g., to detect oligonucleotides or proteins associated with a coronavirus.Type: GrantFiled: May 19, 2021Date of Patent: November 26, 2024Assignee: The Texas A&M University SystemInventor: Pao Tai Lin
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Patent number: 12153058Abstract: The present invention describes a test kit for the detection of fat-soluble vitamins in serum using a method based on high performance liquid chromatography coupled with tandem mass spectrometry (HPLC-MS/MS). The internal standard (IS) solution included in the kit is based on methanol, acetonitrile and isopropyl alcohol solvents. Ammonium acetate is added to the IS solution to make it more stable and last for longer storage time. The application of this kit can significantly improve the recovery and detection sensitivity of vitamins A, E, K1 and K2 in serum without additional sample enrichment, make sample preparation process simpler and more efficient, keep processed samples stable for longer time, and lower the overall cost for more accurate and repeatable test results.Type: GrantFiled: April 23, 2021Date of Patent: November 26, 2024Assignee: Hangzhou Calibra Diagnostics Co., Ltd.Inventors: Shanshan Zeng, Qi Zhang, Yuan Wang, Pengyun Liu, Baoyu Han, Huafen Liu
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Patent number: 12152980Abstract: A system and method for isolating and analyzing single cells, including: a substrate having a broad surface; a set of wells defined at the broad surface of the substrate, and a set of channels, defined by the wall, that fluidly couple each well to at least one adjacent well in the set of wells; and fluid delivery module defining an inlet and comprising a plate, removably coupled to the substrate, the plate defining a recessed region fluidly connected to the inlet and facing the broad surface of the substrate, the fluid delivery module comprising a cell capture mode.Type: GrantFiled: April 11, 2024Date of Patent: November 26, 2024Assignee: Bio-Rad Laboratories, Inc.Inventors: Kalyan Handique, Austin Payne, Vishal Sharma, Kyle Gleason, Priyadarshini Gogoi, Karthik Ganesan, Brian Boniface, Will Chow
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Patent number: 12144905Abstract: A kiosk disinfecting system for large walk-up kiosk screens utilizing touchscreens applies a disinfecting fluid to the touchscreen and has a means to move a wiper over the screen to disinfect the touchscreen. A controller may detect the presence of a user and may automatically activate a disinfecting cycle to ensure that the touchscreen is disinfected between users. The disinfecting system may have a disinfecting fluid applicator, such a spray nozzle(s) and a wiper assembly that makes contact with the touchscreen to spread the disinfecting fluid over the touchscreen surface. A wiper may be a wick-wiper that absorbs or wick disinfecting fluid from a reservoir through the wick to the touchscreen. A very small area of the wick may extend out from an applicator opening to reduce the amount of disinfecting fluid that evaporates over time. A disinfection fluid may be non-volatile and may be all natural and food safe.Type: GrantFiled: December 29, 2021Date of Patent: November 19, 2024Inventor: Elizabeth T. Zell
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Patent number: 12145107Abstract: An inline filter housing with a biodegradable, hydrophilic material that operates in conjunction with a field sampling apparatus to both concentrate field sampled environmental DNA particles from water samples and to automatically preserve the captured DNA via desiccation, thus avoiding filter membrane transfer steps, chemicals or cold storage preservation requirements. The hydrophilic filter housing is capable of rapidly preserving the field sampled environmental DNA captured on the filter membrane at ambient field temperatures.Type: GrantFiled: October 17, 2022Date of Patent: November 19, 2024Assignee: Smith-Root, Inc.Inventors: Austen Clouse Thomas, Jesse Andrew Howard