Ionic Separation Or Analysis Patents (Class 250/281)
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Patent number: 11996279Abstract: Disclosed are systems are methods for identifying the composition of single aerosol particles, particularly that of bioaerosol particles. A continuous timing laser tightly coupled with a pulse ionization laser is used to index aerosol particles, measure particle properties, and trigger the ionization laser to fire when each particle enters the beam of the trigger laser. Ionized fragments and optionally photons produced when each particle is struck by the ionization laser are analyzed using one or more detectors including a TOF-MS detector and an optical detector. Individual single particle spectra are aligned and denoised prior to averaging.Type: GrantFiled: October 21, 2021Date of Patent: May 28, 2024Assignee: ZETEO TECH, INC.Inventors: Michael McLoughlin, Ross Kliegman, Tim Cornish, Vadym Berkout, Scott Ecelberger, Gonzalo Arce, Kyle Regan
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Patent number: 11988648Abstract: A liquid chromatograph includes: a feeding unit configured to feed a mobile phase prepared for an analysis; an analysis flow path provided with an analytical column for separating a sample and a detector for detecting sample components separated with the analytical column; a sample injection part configured to inject the sample into the analysis flow path; a measurement flow path provided separately from the analysis flow path and provided with a measuring instrument for measuring a preparation state of the mobile phase; and a status switching unit configured to selectively switch between an analysis state in which all of the mobile phase the from feeding unit flows through the analysis flow path and a measurement state in which at least a part of the mobile phase from the feeding unit flows through the measurement flow path.Type: GrantFiled: July 25, 2018Date of Patent: May 21, 2024Assignee: SHIMADZU CORPORATIONInventor: Daisuke Nakayama
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Patent number: 11988634Abstract: An ion generation apparatus according to the present invention includes an electron emission device, an opposite electrode, and a controller, the electron emission device includes a lower electrode, a surface electrode, and an intermediate layer provided between the lower electrode and the surface electrode, the opposite electrode is provided to be opposite to the surface electrode, and the controller is provided to apply a voltage to the surface electrode, the lower electrode, or the opposite electrode such that a potential of the surface electrode becomes higher than a potential of the lower electrode and a potential of the opposite electrode in a positive ion mode.Type: GrantFiled: November 29, 2021Date of Patent: May 21, 2024Assignee: SHARP KABUSHIKI KAISHAInventors: Shohei Komaru, Katsuhiko Kyuhken, Kohji Shinkawa, Tadashi Iwamatsu
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Patent number: 11981977Abstract: A method and a system, the system, comprising a laser source, a ionization and acceleration unit, a separation unit, and a collecting unit, wherein the laser source comprises a large bandwidth laser delivering successive pulses of fixed central wavelength and bandwidth to a surface of a target positioned inside the ionization and acceleration unit, surface atoms of the target being ionized by the pulses, accelerated from the surface of the target to a kinetic energy in the range between 100 eV and 10 KeV, and focused to the separation unit, the separation unit separating received atoms into different ions species, and the collecting unit separately collecting the different ion species.Type: GrantFiled: January 6, 2021Date of Patent: May 14, 2024Assignee: INSTITUT NATIONAL DE LA RECHERCHE SCIENTIFIQUEInventors: Stéphane Payeur, François Légaré, Jean-Claude Kieffer
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Patent number: 11984307Abstract: A mass spectrometer support apparatus includes a peak shape logic to determine one or more peak shapes using a calibration mass spectrum and known peak locations; and a tuning logic to adjust instrument parameters to achieve a selected peak width. A method for tuning a quadrupole-based mass spectrometer includes determining one or more peak shapes using a calibration mass spectrum and known peak locations; and adjusting instrument parameters to achieve a selected peak width.Type: GrantFiled: January 18, 2022Date of Patent: May 14, 2024Assignee: Thermo Finnigan LLCInventor: Johnathan W. Smith
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Patent number: 11982655Abstract: The present invention makes it possible to realize an analysis apparatus having a plurality of liquid chromatographs capable of judging separation performance and the like at the right timing and improving analysis performance early. Analysis starts and a mixed sample is prepared by adding a non-retaining ingredient to a measurement object sample and is introduced into an analysis flow path (S401 to S404). The mixed sample is separated into components by a separation column, the components are outputted as chromatogram data by a detector, and the analysis finishes (S404 to S406). Retention time and peak information are acquired from the chromatogram outputted from the detector, whether or not a measurement result is within an allowable range is judged, and the process shifts to next analysis when the measurement result is within the allowable range (S407 to S409).Type: GrantFiled: November 19, 2019Date of Patent: May 14, 2024Assignee: Hitachi High-Tech CorporationInventors: Daisuke Akieda, Makoto Nogami, Iwao Suzuki, Masako Kawarai, Izumi Ogata, Shinya Ito
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Patent number: 11984908Abstract: Described herein are analog-to-digital converters (ADCs) that utilize time-to-digital converters (TDCs) and a histogram block to generate time-correlated histograms from analog signals. In some implementations, the time-to-digital converters determine time intervals for which the analog signal above or below a ramp signal, and the histogram block generates the time-correlated histograms of values using the determined time intervals. Furthermore, in some implementations, the analog-to-digital converters receive the analog signals from photodiodes, such as photo diodes used in Light Detection and Ranging (LIDAR) devices. In some such applications, the use of time intervals to generate time-correlated histograms may be used to reduce the effects of time jitter.Type: GrantFiled: November 27, 2019Date of Patent: May 14, 2024Assignee: Microvision, Inc.Inventor: Ralf Beuschel
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Patent number: 11984310Abstract: A method of operating an inductively coupled plasma mass spectrometry apparatus for analyzing an analyte sample, the mass spectrometry apparatus including a plasma ion source, a mass analyzer and an interface arrangement positioned between the plasma ion source and the mass analyzer of the mass spectrometer, the interface arrangement at least including an interface structure, including a sampling or skimmer cone, and at least one passage with an inlet and an outlet into a reaction zone, the method including: generating a plasma using the plasma ion source and forming a plasma flux to flow towards the mass analyzer; supplying the analyte sample into the reaction zone via the passage such that the analyte sample interacts with the plasma flux; and analyzing the analyte sample using the mass analyzer.Type: GrantFiled: May 12, 2022Date of Patent: May 14, 2024Assignee: Analytik Jena GmbHInventors: Roland Lehmann, Wolfram Weisheit, Iouri Kalinitchenko
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Patent number: 11982656Abstract: A method for controlling a mass spectrometer comprising a mass analyser and a detector. A test specimen is supplied into the mass analyser, to travel through the mass analyser and towards the detector, the test specimen comprising a carrier gas and/or analyte ions, the test specimen being one of a series of test specimens to be analysed. An ion intensity is measured, the ion intensity representing the intensity of ions within the test specimen received at the detector. The method determines if at least one validity criterion of a group of validity criteria is complied with, the group of validity criteria including: identification of a valid peak in the ion intensity measured within a predetermined time interval; and identification of a user-specified flag associated with the predetermined time interval. If none of the validity criteria are complied with, then terminating supplying into the mass analyser the test specimen and any further test specimen of the series of test specimens.Type: GrantFiled: September 8, 2021Date of Patent: May 14, 2024Assignee: Thermo Fisher Scientific (Bremen) GmbHInventors: Holger Jeglinski, Frank-Torsten Heine
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Patent number: 11977051Abstract: An ion mobility analyser comprising an ion guide is provided. The ion guide defines an ion drift channel extending in an axial direction an includes first and second electrode assemblies provided on opposing sides of the ion drift channel. Each of the first and second electrode assemblies extend in the axial direction and in a transverse direction which is transverse to the axial direction. The first and second electrode assemblies are spaced apart on opposing sides of the ion drift channel by a first distance at a narrowest point along the axial direction. Each of the first and second electrode assemblies comprises a set of first electrodes, and a set of second electrodes. The electrodes in the first and second sets are arranged in an alternating pattern in the transverse direction. The alternating pattern extends in the transverse direction a second distance that is greater than the first distance.Type: GrantFiled: April 14, 2022Date of Patent: May 7, 2024Assignee: Thermo Fisher Scientific (Bremen) GmbHInventor: Alexander Makarov
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Patent number: 11967495Abstract: A low power mass spectrometer assembly includes at least an ionization component, an electrostatic analyzer, a lens assembly, a magnet assembly and at least one detector located in a same plane as the entrance to the magnet assembly for detecting the deflected sample ions and/or fragments of sample ions, including ions or ion fragments indicative of the Vitamin D metabolite within the sample.Type: GrantFiled: December 7, 2021Date of Patent: April 23, 2024Assignee: Leidos, Inc.Inventor: Noah Peter Christian
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Patent number: 11965779Abstract: An apparatus for measuring time-resolved optical spectrum includes a light source, a sensor for collecting, forming, manipulating and measuring the intensity of the optical radiation, and a controller coupled to the light source and sensor. The sensor includes at least one optical delay element to provide a time delay to a first portion of the optical radiation. The sensor arrangement further includes an optical spectral disperser to split the delayed first portion and the second portion of the optical radiation into dispersed radiation having a plurality of wavelengths, and a sensor element configured to receive each wavelength of the dispersed radiation on a different spatial region, and measure the light intensity associated with each wavelength of the dispersed radiation. The controller collects the light intensity associated with each wavelength of the dispersed radiation measured by the sensor element to form a time-resolved optical spectrum.Type: GrantFiled: October 28, 2020Date of Patent: April 23, 2024Assignee: TimeGate Instruments OyInventors: Lauri Kurki, Ilkka Alasaarela, Jussi Tenhunen
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Patent number: 11959895Abstract: The analysis apparatus includes a standby section which is provided between a dispensing operation of an analysis item B? prior to an analysis item C and the sample analysis channel introduction. The sample analysis channel introduction is arranged prior to a data collection section of an analysis item A. The operation is started earlier but after a sample dispensing operation section of the analysis item A. A sample dispensing operation section of the analysis item C can be started earlier and the analysis time of the analysis item C can be moved to immediately after a sample analysis operation section of the analysis item B?. The analysis item A in a second cycle can be started earlier by the early start time of the analysis item C in a first cycle. A total processing time Tc can be shorter than a total processing time Tb.Type: GrantFiled: November 30, 2018Date of Patent: April 16, 2024Assignees: HITACHI HIGH-TECH CORPORATION, ROCHE DIAGNOSTICS OPERATIONS, INC.Inventors: Daisuke Akieda, Takayuki Sugime, Izumi Ogata, Makoto Nogami
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Patent number: 11946909Abstract: The present invention relates to an asymmetric flow field-flow fractionation device (1) configured to separate a sample (8) of particles (12) dispersed in a liquid mobile phase (11), the device including a fractionation microchannel (2) comprising a sample inlet, a sample outlet, an auxiliary microchannel (3) comprising an auxiliary outlet, a semipermeable membrane (10) separating the fractionation microchannel (2) and the auxiliary microchannel (3), said membrane being permeable to liquid and being configured to maintain the particles (12) in said fractionation microchannel (2), the fractionation microchannel (2) being superimposed on the auxiliary microchannel (3), wherein the device (1) comprises two layers (19), each layer being with a microfabricated recess (14) which thickness (t) is less than 100IJm, the membrane (10) being mechanically held in between the two layers (19), the recesses (14) respectively defining the fractionation microchannel (2) and the auxiliary microchannel (3) on each side of the mType: GrantFiled: February 21, 2019Date of Patent: April 2, 2024Assignees: Assistance Publique-Hopitaux de Paris, Centre National de la Recherche Scientifique (CNRS), Institut National de le Recherche Scientifique (CNRS), UNIVERSITÉ PARIS CITÉ, Ecole Nationale Superieure de Chimie de ParisInventors: Hugo Salmon, Rabah Gahoual, Nathalie Mignet, Pascal Houze
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Patent number: 11940426Abstract: Provided is a chromatograph mass spectrometer that includes a component separation unit 13 that temporally separates components in a sample, a first detector 15 that acquires measurement data of components included in an outflowing liquid from the component separation unit 13 by an analysis method different from mass spectrometry, a mass spectrometer 2 that acquires mass spectrometry data including intensity information for each of mass-to-charge ratios of ions derived from the components contained in the outflowing liquid from the component separation unit 13, a chromatogram creation unit 45 that creates a chromatogram representing an intensity change of the measurement data with time based on the measurement data of the first detector 15, an information extraction unit 46 that detects a peak based on the intensity change of the mass spectrometry data with time, and extracts information including a representative time of the peak, and a chromatogram display unit 48 that displays the chromatogram together witType: GrantFiled: March 27, 2019Date of Patent: March 26, 2024Assignee: SHIMADZU CORPORATIONInventor: Kazuma Maeda
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Patent number: 11933770Abstract: A Liquid Chromatography Mass Spectrometry system comprises: a chromatograph; a mass spectrometer configured to ionize separated fractions of a sample received from the chromatograph; and a programmable processor operable to repeatedly execute the steps of: (i) causing the mass spectrometer to perform a data-independent analysis of the precursor ion species using a mass analyzer of the mass spectrometer; (ii) calculating one or more degree-of-matching scores that relate to detection of an internal standard; and (iii) if each of the degree-of-matching scores meets a respective degree-of-matching condition, performing a quantitative tandem mass spectrometric analyses of both the internal standard and the analyte; the programmable processor further operable to calculate a quantity of the analyte in the sample by comparison between intensities of one or more mass spectral signals generated by the quantitative tandem mass spectrometric analyses of the analyte and the internal standard.Type: GrantFiled: November 2, 2022Date of Patent: March 19, 2024Assignee: Thermo Finnigan LLCInventors: Philip M. Remes, David A. Sarracino, Sebastien F. Gallien
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Patent number: 11935735Abstract: A circuit and method for providing high-voltage radio-frequency (RF) energy to an instrument at multiple frequencies includes a plurality of inputs each configured to receive an RF voltage signal oscillating at a corresponding frequency, and a step-up circuit for generating magnified RF voltage signals based on the received RF voltage signals. The step-up circuit includes an LC network operable to isolate the RF voltage signals at the plurality inputs from one another while preserving a voltage magnification from each input to a common output at each of the corresponding frequencies.Type: GrantFiled: July 18, 2022Date of Patent: March 19, 2024Assignee: AGILENT TECHNOLOGIES, INC.Inventor: Michael J. Schoessow
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Patent number: 11920732Abstract: A quality control method for the preparation of dry compressed gas cylinder including passivating and/or preparing the compressed gas cylinder with the technique to be validated, filling the passivated/prepared compressed gas cylinder with gaseous carbon dioxide to a normal working pressure, wherein the gaseous carbon dioxide has a known ?18O isotope ratio, maintaining the pressurized gas cylinder at ambient temperature for a first predetermined period of time, and gradually emptying the pressurized gas cylinder, while simultaneously measuring the ?18O isotopic ratio, wherein a predetermined variation in the measured isotopic ratio of ?18O indicates a properly prepared cylinder.Type: GrantFiled: March 2, 2020Date of Patent: March 5, 2024Assignees: Airgas, Inc., America Air Liquide, Inc., L'Air Liquide, Société Anonyme pour l'Etude et l'Exploitation des Procédés Georges ClaudeInventors: Tracey Jacksier, Mani C. Matthew, Richard A. Socki, Jun Sonobe, Megumi Isaji, James McHale
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Patent number: 11921095Abstract: A method of mass spectrometry is disclosed comprising repeatedly or continuously causing first analyte sample to be released or ejected from a first sample. A determination is made as to whether or not a quality threshold such as an intensity threshold has been met or exceeded, wherein if the quality threshold has been met or exceeded then the method further comprises repeatedly or continuously causing second analyte sample to be released or ejected from a second sample.Type: GrantFiled: October 13, 2020Date of Patent: March 5, 2024Assignee: Micromass UK LimitedInventors: Gareth Rhys Jones, Michael McCullagh, Alastair Murray Booth
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Patent number: 11923183Abstract: Dynamic skimmer pulsing and dynamic equilibration times are used for MS and MS/MS scans. A target percentage transmission of the ion beam is calculated based on a previous percentage transmission and a previous TIC or a previous highest intensity of a previous cycle time. An equilibration time is calculated based on the current percentage transmission and the target percentage transmission. A skimmer of a tandem mass spectrometer is controlled to attenuate the ion beam to the target percentage transmission to prevent saturation of a detector of the tandem mass spectrometer and to increase the dynamic range of the tandem mass spectrometer. The tandem mass spectrometer is controlled to perform an MS scan or an MS/MS scan after the calculated equilibration time to reduce the cycle time.Type: GrantFiled: April 14, 2022Date of Patent: March 5, 2024Inventors: Douglas Arnold Simmons, Nic G. Bloomfield
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Patent number: 11913924Abstract: The invention generally relates to ion generation using modified wetted porous materials. In certain aspects, the invention generally relates to systems and methods for ion generation using a wetted porous substrate that substantially prevents diffusion of sample into the substrate. In other aspects, the invention generally relate to ion generation using a wetted porous material and a drying agent. In other aspects, the invention generally relates to ion generation using a modified wetted porous substrate in which at least a portion of the porous substrate includes a material that modifies an interaction between a sample and the substrate.Type: GrantFiled: March 30, 2023Date of Patent: February 27, 2024Assignee: Purdue Research FoundationInventors: Robert Graham Cooks, Zheng Ouyang
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Patent number: 11908670Abstract: A method of performing mass spectrometry includes accessing a series of mass spectra of detected ions derived from components eluting from a chromatography column; obtaining, based on the series of mass spectra, an elution profile including a plurality of detection points representing intensity of at least a set of the detected ions as a function of time; and determining, based on a set of detection points included in the plurality of detection points, a predicted next detection point of the elution profile to be obtained based on a next mass spectrum to be acquired subsequent to acquisition of the series of mass spectra.Type: GrantFiled: May 16, 2022Date of Patent: February 20, 2024Assignee: Thermo Finnigan LLCInventors: Philip M. Remes, Jesse D. Canterbury
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Patent number: 11898975Abstract: The electron spectrometer includes an excitation part 100 irradiating a sample with an energy beam, an orbiting part 10 causing electrons emitted from the sample irradiated with the energy beam to orbit, and a detection part 120 detecting the electrons released from the orbiting part 10, in which the orbiting part 10 includes a plurality of pairs of electrodes, the plurality of pairs of electrodes cause the electrons to orbit when an applied voltage is controlled, a part of the plurality of pairs of electrodes are pairs of electrodes to catch which catch the electrons into the orbiting part 10 when an applied voltage is controlled, and a part of the plurality of pairs of electrodes are pairs of electrodes to release which release the electrons from the orbiting part 10 when an applied voltage is controlled.Type: GrantFiled: February 23, 2022Date of Patent: February 13, 2024Assignee: TOHOKU UNIVERSITYInventors: Masahiko Takahashi, Isao Nakajima, Yuuki Onitsuka
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Patent number: 11894147Abstract: A method for predicting an unfavorable outcome for a patient admitted to a hospital, e.g., with a COVID-19 infection is described. Attributes from an electronic health record for the patient are obtained including at least findings obtained at admission, basic patient characteristics, and laboratory data. The attributes are supplied to a classifier implemented in a programmed computer which is trained to predict a risk of the unfavorable outcome. The classifier is arranged as a hierarchical combination of (a) an initial binary classifier stratifying the patient into either a high risk group or a low risk group, and (b) child classifiers further classifying the patient in a lowest risk group or a highest risk group depending how the initial binary classifier stratified the patient as either a member of the high risk or low risk group.Type: GrantFiled: September 2, 2022Date of Patent: February 6, 2024Assignee: BIODESIX, INC.Inventors: Thomas Campbell, Robert W. Georgantas, III, Heinrich Röder, Joanna Röder, Laura Maguire
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Patent number: 11885811Abstract: The present invention provides rapid, sensitive high-throughput methods and systems for characterizing peptides or proteins using hydrophobic interaction chromatography-coupled native mass spectrometry to improve manufacturing process of biopharmaceutical products, such as identifying impurities during antibody purification, monitoring post-translational modification variants during production, or characterizing drug-to-antibody ratio of antibody-drug conjugates. The separation profiles of the peptides or proteins are generated and compared to identify or qualify the peptides or proteins.Type: GrantFiled: November 7, 2022Date of Patent: January 30, 2024Assignee: Regeneron Pharmaceuticals, Inc.Inventors: Yuetian Yan, Shunhai Wang
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Patent number: 11887832Abstract: An isotope ratio mass spectrometer has an ion source, a static field mass filter, a reaction cell to induce a mass shift reaction, and a sector field mass analyser for spatially separating ions from the reaction cell according to their m/z. A detector platform detects a plurality of different ion species separated by the sector field mass analyser. The static field mass filter has a first Wien filter that deflects ions away from a longitudinal symmetry axis of the spectrometer in accordance with the ions' m/z, and a second Wien filter that deflects ions back towards the longitudinal symmetry axis in accordance with the ions' m/z. An inverting lens is positioned along the longitudinal axis between the Wien filters to invert the direction of deflection of the ions from the first Wien filter. The static field mass filter provides high transmission and improved spectrometer sensitivity. The first and second Wien filters permit simple tuning.Type: GrantFiled: March 24, 2022Date of Patent: January 30, 2024Assignee: Thermo Fisher Scientific (Bremen) GmbHInventors: Johannes Schwieters, Gerhard Jung
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Patent number: 11881387Abstract: Apparatus and method are proposed for the strong improvement of dynamic range (DR) of detectors and of data systems for time-of-flight mass spectrometers (TOF MS) with periodically repetitive signals. TOF separated ions are converted into secondary particles, primarily electrons, and the flow of secondary particles is controllably attenuated to sustain the data acquisition system in a counting mode above the electronic noise threshold. The acquisition time is split between at least two time segments, characterized by alternated transmission efficiency SE of secondary particles. Using strong electron suppression (SE«1) is employed for recording intense ion peak, while counting ions with either ADC, or TDC, or ADC with extracting peak centroids. A longer time segment employs an efficient electron transfer (SE=1) for detecting weak ion species.Type: GrantFiled: May 23, 2019Date of Patent: January 23, 2024Assignee: Micromass UK LimitedInventor: Anatoly Verenchikov
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Patent number: 11874252Abstract: An apparatus for ion manipulation having improved duty cycle includes first and second separation regions separated by a switch that alternates between guiding ions to each of the separation regions. The separation regions separate the ions based on mobility over respective time periods that at least partially overlap. The apparatus can additionally or alternatively include a pre-separation region that filters ions prior to accumulating ions, thus allowing an accumulation region to accumulate for a longer time period. The apparatus can additionally or alternatively include a plurality of gates along the separation region(s) to simultaneously filter a plurality of ion packets sequentially released into the separation region(s).Type: GrantFiled: June 3, 2021Date of Patent: January 16, 2024Assignee: MOBILion Systems, Inc.Inventors: John Daniel DeBord, Liulin Deng, Nathan Paul Roehr
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Patent number: 11875982Abstract: Techniques and systems for multi-modal ionization for mass spectrometry are provided. In some embodiments, a method may comprise: receiving an analyte; ionizing some molecules of the analyte using a first ionization method to produce first ions; ionizing other molecules of the analyte using a second ionization method to produce second ions; and providing the first and second ions to a mass analyzer.Type: GrantFiled: February 17, 2023Date of Patent: January 16, 2024Assignee: BaySpec, Inc.Inventors: Nam Duc Lai, Krisztian Gabor Torma, Ming Chai, William Allen Escobar, Xiaoguang Wu, Masayuki Kamata, Wei Yang Terziyan
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Patent number: 11869634Abstract: A system and method for automated detection of the presence or absence of a quantity based on intensities expressed in terms of, or derived from frequency or time dependent data. According to one example intensities from mass spectrometry are identified using a non-linear mathematical model, such as an artificial neural network trained to find start and stop peaks of an intensity, from which an abundance may be determined.Type: GrantFiled: March 27, 2020Date of Patent: January 9, 2024Assignee: VENN BIOSCIENCES CORPORATIONInventors: Daniel Serie, Zhenqin Wu
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Patent number: 11861826Abstract: At the time of superimposing and aligning a stained image and a mass spectrometric (MS) image obtained for the same sample, an image display processor displays, on the superimposed images, grid lines (62) at the spacing corresponding to an operation of a grid spacing adjustment slider (63). When an operator depresses an image deformation range “SET” button (64), specifies an arbitrary area on the superimposed images with a mouse, and then depresses a “SELECT” button (65), an image deformation range specification receiving section determines an image deformation range. When the operator selects an intersection (grid point) of the grid lines (62) within the image deformation range and performs an operation of moving the intersection point to an arbitrary position, an image deformation processor deforms an image included in the image deformation range in accordance with the operation.Type: GrantFiled: May 30, 2018Date of Patent: January 2, 2024Assignee: SHIMADZU CORPORATIONInventor: Shinichi Yamaguchi
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Patent number: 11854778Abstract: A method for the identification and localization of small molecule species in a histologic thin tissue section comprises the steps of: a) acquiring a mass/mobility image of the tissue section and generating a mass/mobility map of the small molecule species of interest for each pixel of the image; b) providing a second sample of the same tissue and extracting the small molecules of interest, separating them, and acquiring mass and ion mobility spectra from the separated small molecules; c) identifying the small molecules of interest using corresponding reference databases; and d) assigning identified small molecules to entries in the mass/mobility maps of the first tissue section by comparison of ion masses and mobilities of the identified species to those of the second thin tissue section.Type: GrantFiled: January 3, 2023Date of Patent: December 26, 2023Inventor: Michael Easterling
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Patent number: 11854780Abstract: Exemplary embodiments provide methods, mediums, and systems for comparing a sample of interest to a library of known compounds to quickly determine how similar the sample is to the compounds in the library. Peaks of interest in the sample data are compared to corresponding peaks in the library compound data. These peaks may be represented as vectors, and an angle between the sample vector and the library vector may be used as a similarity metric. In some embodiments, a cosine similarity may be calculated for the vectors. If the similarity score for a given library compound/sample pair exceed a threshold, then the system determines that the library compound and the sample are similar and takes appropriate action. Various parameters associated with the comparison can be adjusted in order to improve the quality of the results and/or the efficiency of the process.Type: GrantFiled: October 13, 2021Date of Patent: December 26, 2023Assignee: WATERS TECHNOLOGIES IRELAND LIMITEDInventors: Nathaniel Martin, Nicola Lumley, David S. Douce, David Jackson
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Patent number: 11854781Abstract: The invention generally relates to electrophoretic mass spectrometry probes and systems and methods of uses thereof. In certain aspects, the invention provides a mass spectrometry probe having a hollow body with a distal tip, an electrically conductive hollow conduit, and an electrode. The electrically conductive hollow conduit may be operably coupled to a reservoir and a power source, and the electrically conductive hollow conduit may be configured to transport a liquid sample into the hollow body and polarize the liquid sample as it flows through the electrically conductive hollow conduit and into in the hollow body. The electrode and the electrically conductive hollow conduit are disposed within the hollow body (e.g., at different heights within the hollow body).Type: GrantFiled: November 2, 2022Date of Patent: December 26, 2023Assignees: Purdue Research Foundation, AMGEN INC.Inventors: Robert Graham Cooks, Tawnya Flick
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Patent number: 11848184Abstract: An ion guide (20) provided in a first intermediate vacuum chamber includes six rod electrodes (211 to 216) and a voltage generation unit. The six rod electrodes (211 to 216) are in a hexapole arrangement on the ion incident side, and the two rod electrodes (211 and 214) are tilted with respect to the Z-axis in a manner approaching a central axis (201) as they progress in the ion transport direction, so that the four rod electrodes (211, 214, 215, and 216) are in a quadrupole arrangement. The voltage generation unit applies radio-frequency voltages ±V cos ?t whose phases are inverted to each other between adjacent rod electrodes of the six rod electrodes (211 to 216) around the central axis (201), applies a DC voltage U1 to the four electrodes (211, 214, 215, and 216) by which ions pass through them in an excellent manner, and applies a DC voltage U2 different from U1 to the other two rod electrodes (212 and 213).Type: GrantFiled: December 19, 2018Date of Patent: December 19, 2023Assignee: SHIMADZU CORPORATIONInventor: Masaru Nishiguchi
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Patent number: 11848181Abstract: Intensity measurements made by electron multiplier and image-charge detectors are proportional to charge state. These intensities are used to separate detected ions into different data sets and create mass spectra from the different data sets. Ion measurements are separated by charge state using (i) a single electron multiplier detector, (ii) a single image-charge detector, or (iii) multiple electron multiplier ADC detectors. Using (i), the intensity of a peak calculated from each measured pulse is compared to predetermined intensity ranges and each peak is stored in a corresponding data set. Using (ii), each measured transient time-domain signal is converted to frequency-domain peaks, the intensity of each frequency-domain peak is compared to predetermined intensity ranges, and each peak is stored in a corresponding data set. Using (iii), each detector is adapted to measure a predetermined intensity range and store calculated peaks from the measured pulses in corresponding data sets.Type: GrantFiled: January 31, 2020Date of Patent: December 19, 2023Assignee: DH Technologies Development Pte. Ltd.Inventors: Pavel Ryumin, Takashi Baba, Nic G. Bloomfield
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Patent number: 11848183Abstract: Devices and methods for surface-induced dissociation (SID) are disclosed. In one aspect, a device for SID is disclosed which, in one embodiment includes a collision surface, a deflector configured to guide precursor ions from a pre-SID region to the collision surface to cause SID, and an ion carpet having applied electrical properties configured to guide product ions resulting from collision with the collision surface to a post-SID region. In another aspect, a method for SID is disclosed which, in one embodiment includes guiding, by a deflector, precursor ions from a pre-SID region to a collision surface to cause SID, and guiding, by an ion carpet having selected applied electrical properties, product ions resulting from collision with the collision surface to a post-SID region.Type: GrantFiled: December 26, 2019Date of Patent: December 19, 2023Assignee: Ohio State Innovation FoundationInventors: Vicki Wysocki, Joshua Gilbert, Alyssa Stiving
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Patent number: 11842892Abstract: Ions are injected into an orbital electrostatic trap. An ejection potential is applied to an ion storage device, to cause ions stored in the ion storage device to be ejected towards the orbital electrostatic trap. Synchronous injection potentials are applied to a central electrode of the orbital electrostatic trap and a deflector electrode associated with the orbital electrostatic trap, to cause the ions ejected from the ion storage device to be captured by the electrostatic trap such that they orbit the central electrode. Application of the ejection potential and application of the synchronous injection potentials are each started at respective different times, the difference in times being selected based on desired values of mass-to-charge ratios of ions to be captured by the orbital electrostatic trap.Type: GrantFiled: April 19, 2022Date of Patent: December 12, 2023Assignee: Thermo Fisher Scientific (Bremen) GmbHInventors: Mikhail Belov, Eduard Denisov, Gregor Quiring, Dmitry Grinfeld
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Patent number: 11837455Abstract: The invention generally relates to sample analysis systems and methods of use thereof. In certain aspects, the invention provides a system for analyzing a sample that includes an ion generator configured to generate ions from a sample. The system additionally includes an ion separator configured to separate at or above atmospheric pressure the ions received from the ion generator without use of laminar flowing gas, and a detector that receives and detects the separated ions.Type: GrantFiled: June 3, 2022Date of Patent: December 5, 2023Assignee: Purdue Research FoundationInventors: Robert Graham Cooks, Zane Baird, Pu Wei
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Patent number: 11837451Abstract: A method for cleaning an electrospray emitter of a mass spectrometer comprises the steps of: (a) changing a mode of operation of the electrospray emitter from a stable jet mode of operation to a dripping mode or a pulsating mode of operation by lowering a magnitude, |V|, of a voltage applied between a counter electrode and the electrospray emitter; and (b) changing the mode of operation of the electrospray emitter from the dripping mode or the pulsating mode of operation to the stable jet mode of operation by increasing the magnitude, |V|, of the applied voltage; wherein the repetitions are performed at a predetermined frequency that depends on one or more of liquid flow rate, an emitter internal diameter, and liquid properties.Type: GrantFiled: January 10, 2023Date of Patent: December 5, 2023Assignee: Thermo Finnigan LLCInventors: Joshua A. Silveira, Michael L. Poltash, Wei Wei, Eloy R. Wouters
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Patent number: 11828724Abstract: An ion guide electrode assembly (10) for an ion-mobility spectrometer is described. The electrode assembly (10) comprises a first sheet (100), having first and second surfaces (110, 120) comprising a plurality of corresponding regions (111, 112, 121, 122). The first sheet (100) comprises a set of N electrodes (130, 140), including a first electrode (130) and a second electrode (140), provided as tracks mutually spaced apart on the first surface (110) thereof. The electrode assembly (10) is arrangeable in a planar configuration and preferably in a tubular configuration. In the tubular configuration, a first part (131) of the first electrode (130), provided in a first region 111 of the first surface (110), overlays a second region (122) of the second surface (120).Type: GrantFiled: March 15, 2019Date of Patent: November 28, 2023Assignee: THE UNIVERSITY OF LIVERPOOL (INC. IN THE UK)Inventors: Simon Maher, Cedric Claude Boisdon
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Patent number: 11830717Abstract: The invention generally relates to apparatuses for focusing ions at or above ambient pressure and methods of use thereof. In certain embodiments, the invention provides an apparatus for focusing ions that includes an electrode having a cavity, at least one inlet within the electrode configured to operatively couple with an ionization source, such that discharge generated by the ionization source is injected into the cavity of the electrode, and an outlet. The cavity in the electrode is shaped such that upon application of voltage to the electrode, ions within the cavity are focused and directed to the outlet, which is positioned such that a proximal end of the outlet receives the focused ions and a distal end of the outlet is open to ambient pressure.Type: GrantFiled: April 14, 2023Date of Patent: November 28, 2023Assignee: Purdue Research FoundationInventors: Robert Graham Cooks, Zane Baird, Wen-Ping Peng
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Patent number: 11823883Abstract: An ion detector for secondary ion mass spectrometer, the detector having an electron emission plate coupled to a first electrical potential and configured to emit electrons upon incidence on ions; a scintillator coupled to a second electrical potential, different from the first electrical potential, the scintillator having a front side facing the electron emission plate and a backside, the scintillator configured to emit photons from the backside upon incidence of electrons on the front side; a lightguide coupled to the backside of the scintillator and confining flow of photons emitted from the backside of the scintillator; and a solid-state photomultiplier coupled to the light guide and having an output configured to output electrical signal corresponding to incidence of photons from the lightguide. A SIMS system includes a plurality of such detectors movable arranged over the focal plane of a mass analyzer.Type: GrantFiled: November 19, 2021Date of Patent: November 21, 2023Assignee: NOVA MEASURING INSTRUMENTS, INC.Inventors: Christopher F. Bevis, Yungman Alan Liu, David Allen Reed, Eli Cheifetz, Amit Weingarten, Alexander Kadyshevitch
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Patent number: 11823885Abstract: A method for analyzing a sample collected from a surface, the method comprising placing at least a portion of a substrate having a pressure sensitive adhesive layer containing the sample in a holder, adding a spray solvent to the sample-containing pressure sensitive adhesive layer, and analyzing the sample contained in the pressure sensitive adhesive layer and the spray solvent using paper spray mass spectrometry.Type: GrantFiled: December 18, 2020Date of Patent: November 21, 2023Assignees: The Trustees of Indiana University, The U.S. Government as Represented by the U.S. Army Combat Capabilities Development CommandInventors: Nicholas Edward Manicke, William Raymond Anthony Wichert, Ethan M. McBride, Trevor G. Glaros, Phillip M. Mach
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Patent number: 11817669Abstract: In this patent, we teach methods to generate coherent X-ray and UUV rays beams for X ray and UUV microscopes using intense femtosecond pulses resulting the Ultra-Supercontinuum (USC) and Higher Harmonic Generation (HHG) from ?3 and ?5 media produce from electronic and molecular Kerr effect. The response of n2 (?3) and n4 (?5) at the optical frequency from instantaneously response of carrier phase of envelope results in odd HHG and spectral broadening about each harmonic on the anti-Stokes side of the pump pulse at wo typically in the visible, NIR, and MIR. From the slower molecular Kerr response on femtosecond to picosecond from orientation and molecular motion on n2 and n4 which follow the envelope of optical field of the laser gives rise to extreme broadening without HHG. The resulting spectra extend on the Stokes side towards the IR, RF to DC covering most of the electromagnetic spectrum. These HHG and Super broadening covering UUV to X rays and possibly to gamma ray regime for microscopes.Type: GrantFiled: November 22, 2021Date of Patent: November 14, 2023Inventor: Robert R. Alfano
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Patent number: 11817301Abstract: A signal processing unit comprises: at least one data signal input line adapted to receive a measured data signal generated by an image current, the measured data signal comprising an added crosstalk signal induced by a source of electromagnetic disturbance; at least one disturbance signal input line adapted to receive a decoupled disturbance signal, extracted from the source of electromagnetic disturbance; an output line adapted to supply a compensated data signal; a conditioning module, to which the decoupled disturbance signal is supplied via the disturbance signal input line and which provides a compensation signal; and an adding module, to which the measured data signal and the compensation signal are provided and in which the measured data signal and the compensation signal are superposed, whereby the decoupled disturbance signal is conditioned by the conditioning module such that the compensation signal essentially corresponds to an inverted added crosstalk signal.Type: GrantFiled: June 10, 2022Date of Patent: November 14, 2023Assignee: Thermo Fisher Scientific (Bremen) GmbHInventors: Alexander Kholomeev, Gregor Quiring, Frank Czemper
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Patent number: 11810773Abstract: A mass spectrometry method comprises: introducing a first packet of ions into an electrostatic trap mass analyzer through a set of electrostatic lenses, wherein, during the introducing of the first packet, either the lenses are operated in a first mode of operation or an injection voltage of a first pre-determined magnitude is applied to an electrode of the mass analyzer; mass analyzing the first ion packet using the mass analyzer; introducing a second packet of ions into the mass analyzer through the set of lenses, wherein, during the introducing of the second packet, either the lenses are operated in a second mode of operation or an injection voltage of a second pre-determined magnitude is applied to the electrode of the mass analyzer; and mass analyzing the second packet of ions using the electrostatic trap mass analyzer.Type: GrantFiled: January 24, 2023Date of Patent: November 7, 2023Assignee: Thermo Finnigan LLCInventors: Jesse D. Canterbury, Michael W. Senko
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Patent number: 11810772Abstract: In one aspect, a method of processing ions in a mass spectrometer is disclosed, which comprises trapping a plurality of ions having different mass-to-charge (m/z) ratios in a collision cell, releasing said ions from the collision cell in a descending order in m/z ratio, and receiving the ions in a mass analyzer having a plurality of rods to at least one of which an RF voltage is applied, where the RF voltage is varied from a first value to a lower second value as the released ions are received by the mass analyzer.Type: GrantFiled: April 28, 2022Date of Patent: November 7, 2023Assignee: DH Technologies Development Pte. Ltd.Inventor: Mircea Guna
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Patent number: 11798656Abstract: One aspect of the invention provides a computer-implemented method of identifying a species from mass spectra. The computer-implemented method includes: loading a data set including a species and associated mass spectra into memory on a computer; for each of the associated mass spectra, pre-processing to identify ranks of intensities of an in-bin peak across bins defining ranges of mass-to-charge ratio; and training a species binary classifier for each of a plurality of species using at least the ranks of intensities. Another aspect of the invention provides a system for identifying a species from mass spectra. The system includes: a processor; and computer-readable memory containing instructions to: implement an interface programmed to receive mass spectra; store the mass spectra in the computer-readable memory; and invoke execution of any of the methods described herein on the processor.Type: GrantFiled: January 21, 2020Date of Patent: October 24, 2023Assignee: Nevada Research & Innovation CorporationInventor: So Young Ryu
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Patent number: 11789026Abstract: Methods are described for measuring the amount of C peptide in a sample. More specifically, mass spectrometric methods are described for detecting and quantifying C peptide in a sample utilizing on-line extraction methods coupled with tandem mass spectrometric or high resolution/high accuracy mass spectrometric techniques.Type: GrantFiled: May 27, 2022Date of Patent: October 17, 2023Assignee: Quest Diagnostics Investments IncorporatedInventors: Nigel Clarke, Zhaohui Chen