Patent application number | Description | Published |
20080203286 | APPARATUS AND METHOD FOR COOLING IONS - An apparatus for secondary ion mass spectrometry is provided having a target surface for supporting a sample on the target surface and an ion source configured to direct a beam of primary ions toward the sample to sputter secondary ions and neutral particles from the sample, A first chamber having an inlet provides gas to maintain high pressure at the sample for cooling the secondary ions and neutral particles, the high pressure being in the range of about 10 | 08-28-2008 |
20090014645 | CONFINING IONS WITH FAST-OSCILLATING ELECTRIC FIELDS - The applicants' teachings provide methods, systems, and apparatus useful in operating mass spectrometers and other devices incorporating multipole rod sets or other multi-electrode devices to simultaneously contain ions of both positive and negative charges through the simultaneous application to the rods or other electrodes of both radio-frequency (RF) and alternating (AC) currents. | 01-15-2009 |
20130299689 | LINEAR ION TRAP FOR RADIAL AMPLITUDE ASSISTED TRANSFER - Systems, methods and apparatus for radial amplitude assisted transfer (RAAT) in mass spectrometers are provided in which ions for RAAT are accelerated along a longitudinal axis of a mass spectrometer in order to decrease the magnitude of excitation energy of radially excited ions in an ion trap that allows the radially excited ions to exit the ion trap. Hence, the radially excited ions exit the ion trap with reduced radial energy thereby decreasing the exit angle of the radially exited ions from the ion trap. Furthermore, combined forces on the ions are such that radially excited ions exit the ion trap while unexcited ions remain in the ion trap. | 11-14-2013 |
Patent application number | Description | Published |
20100078551 | Method, System And Apparatus For Multiplexing Ions In MSn Mass Spectrometry Analysis - A method and apparatus for multiplexing ions in an MSn mass spectrometer is provided. Ion are filtered to produce a group of ions of interest, the group of ions below a space charge limit of the MSn mass spectrometer. At least a portion of the group of ions are fragmented to form a fragmented group of ions. At least a portion of the fragmented group are stored such that a plurality of portions of the fragmented group can be sequentially selected for mass spectrometry analysis. Each of the plurality of portions of the fragmented group are sequentially selected and re-fragmented prior to mass spectrometry analysis. Each of the plurality of portions of the fragmented group are analyzed, via mass spectrometry, once each of the plurality of portions of the fragmented group has been fragmented. | 04-01-2010 |
20100207023 | APPARATUS AND METHOD OF PHOTO FRAGMENTATION - A method of photo-fragmentation is provided generating a beam of ions from a sample with an ion source, filtering the beam of ions in a filtering region to select desired ions, and photo-fragmenting the desired ions in a photo-fragmentation region having a higher pressure than the filtering region to generate fragment ions predominantly by prompt fragmentation. An apparatus for photo-fragmentation is provided having an ion source configured to generate a beam of ions from a sample, a filtering region for selecting desired ions, a photo-fragmentation region having a higher pressure than the filtering region to generate predominantly prompt fragmentation of the selected desired ions, an inlet for providing gas to the photo-fragmentation region to maintain a pressure in the photo-fragmentation region that is higher than the pressure in the filtering region, and a photon source emitting a beam of light for photo-fragmenting the selected ions in the photo-fragmentation region. | 08-19-2010 |
20110057095 | METHOD, SYSTEM AND APPARATUS FOR FILTERING IONS IN A MASS SPECTROMETER - A method and mass spectrometer for filtering ions are provided. The mass spectrometer generally comprises an ion guide, a quadrupole mass filter, a collision cell and a time of flight (ToF) detector, and is enabled to transmit an ion beam through to the ToF detector. The mass spectrometer is operated in MS mode, such that ions in the ion beam remain substantially unfragmented, the quadrupole mass filter operating at a pressure substantially lower than in either of the ion guide and the collision cell. The quadrupole mass filter is operated in a bandpass mode such that ions outside of a range of interest are filtered from the ion beam, leaving ions inside the range of interest in the ion beam. The ions inside the range of interest are analyzed at the ToF detector. | 03-10-2011 |
20110186727 | METHOD AND SYSTEM FOR OPERATING A TIME OF FLIGHT MASS SPECTROMETER DETECTION SYSTEM - Dual TDC-ADC detection systems for time of flight mass spectrometry are disclosed herein. Detection systems based upon TDC generally provide higher timing resolution as opposed to detection systems based upon ADC. However, ADC generally provides increased dynamic range over TDC. By combining TDC and ADC into a tandem detector, and adjusting performance parameters of the respective converter types, the dynamic range of the dual TDC-ADC detection can be extended beyond what either detector type could have achieved individually. Composite time of flight mass spectra can be generated by aggregating individual mass spectra acquired from multiple time-of-flight extractions, and selecting the number of time-of-flight extractions to ensure overlap between the ADC and TDC dynamic ranges in the dual TDC-ADC detector system. | 08-04-2011 |
20110278917 | APPARATUS AND METHOD FOR COUPLING RF AND AC SIGNALS TO PROVIDE POWER TO A MULTIPOLE IN A MASS SPECTROMETER - An apparatus and method for coupling RF and AC signals to provide power to a multipole in a mass spectrometer is provided. A first circuit comprises: an RF power source for providing difference mode power to the multipole via the RF signal; at least one inductor for forming at least one resonant LC circuit with the multipole for providing voltage gain for the RF signal; and a transformer, comprising a secondary tap, the transformer connected in parallel to the RF power source and further connected to the at least one inductor such that the signals injected into the secondary tap are communicated to the at least one resonant LC circuit. A second circuit comprises: an AC power source for providing common mode power to the multipole via the AC signal, an output from the second circuit connected to the secondary tap such that the common mode power is injected into the first circuit and the multipole can be operated in common mode and difference mode simultaneously; and at least one inductor for forming a resonant LC circuit with the multipole via the transformer, to provide voltage gain for the AC signal. | 11-17-2011 |
20130140454 | ION LENS FOR REDUCING CONTAMINANT EFFECTS IN AN ION GUIDE OF A MASS SPECTROMETER - An ion lens for reducing contaminant effects in an ion guide of a mass spectrometer is provided. The ion lens comprises a structural member comprising an orifice of a given radius, the structural member for supporting the ion lens at an exit region of the ion guide. The ion lens further comprises a conical member extending from the structural member, the conical member being hollow and comprising a given cone angle, and a base of the given radius, a perimeter of the base connected to a perimeter of the orifice. The conical member further comprises an aperture through an apex of the conical member, the aperture for receiving ions there through from the ion guide. | 06-06-2013 |
20150318156 | ION OPTICAL ELEMENTS - Ion optics devices and related methods of making and using the same are disclosed herein that generally involve forming a plurality of electrode structures on a single substrate. An aspect ratio of the structures relative to a plurality of recesses which separate the structures can be selected so as to substantially prevent ions passing through the finished device from contacting exposed, electrically-insulating portions of the substrate. The substrate material can be a material that is relatively inexpensive and easy to machine into complex shapes with high precision (e.g., a printed circuit board material). In some embodiments, discrete ion optical elements are disclosed which can be formed from a core material to which an electrically- conductive coating is applied, the core material being relatively inexpensive and easy to machine with high precision. The coating can be configured to substantially prevent outgassing from the core under the vacuum conditions typically experienced in a mass spectrometer. | 11-05-2015 |
20160056031 | SAMPLE ANALYSIS FOR MASS CYTOMETRY - The invention relates to methods and devices for analysis of samples using laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS). The invention provides methods and devices in which individual ablation plumes are distinctively captured and transferred to the ICP, followed by analysis by mass cytometry. | 02-25-2016 |
Patent application number | Description | Published |
20090081262 | METAL OXIDE COATING OF WATER INSOLUBLE INGREDIENTS - The invention relates to process for coating a solid, water-insoluble particulate matter, with a metal oxide comprising: (a) contacting the solid water-insoluble particulate matter with a cationic additive in an aqueous medium to obtain a dispersion of said particulate matter having a positive zeta potential; (b) coating the solid water-insoluble particulate matter by precipitation of a metal oxide salt onto the surface of the particulate matter, forming a metal oxide layer thereon; and (c) aging said coating layer The invention further relates to coated particulate matter obtained by the process and to compositions comprising solid, water-insoluble particulate matter, coated by a metal oxide layer, the particulate matter being a dermatological active agent or a pesticide. The invention additionally relates to methods of treating a surface condition in a subject using compositions comprising solid, water insoluble dermatologically active agent, coated by a metal oxide layer. | 03-26-2009 |
20100047357 | COMPOSITIONS FOR TOPICAL APPLICATION COMPRISING A PEROXIDE AND RETINOID - The invention relates to a composition for topical application comprising as an active ingredient a peroxide and a retinoid wherein one of said peroxide and retinoid is in the form of first microparticles comprising a solid particulate matter of the active ingredient coated by a metal oxide layer and the other of said peroxide and retinoid is present in an uncoated free form or in a coated form of the active ingredient. The invention further relates to method for treating a surface condition in a subject using said composition, a method for preparing a composition exhibiting improved stability, and a kit comprising: (a) a first composition comprising a peroxide as a first active ingredient; and (b) a second composition comprising a retinoid as a second active ingredient; at least one of said first and said second active ingredient being coated by a metal oxide layer. | 02-25-2010 |
20110177951 | MICROCAPSULES COMPRISING ACTIVE INGREDIENTS AND A METAL OXIDE SHELL, A METHOD FOR THEIR PREPARATION AND USES THEREOF - The present invention provides a process for preparing microcapsules comprising a core material encapsulated by a metal oxide shell, microcapsules obtained therewith and uses thereof. | 07-21-2011 |
20120269874 | COMPOSITIONS FOR TOPICAL APPLICATION COMPRISING A PEROXIDE AND RETINOID - The invention relates to a composition for topical application comprising as an active ingredient a peroxide and a retinoid wherein one of said peroxide and retinoid is in the form of first microparticles comprising a solid particulate matter of the active ingredient coated by a metal oxide layer and the other of said peroxide and retinoid is present in an uncoated free form or in a coated form of the active ingredient. The invention further relates to method for treating a surface condition in a subject using said composition, a method for preparing a composition exhibiting improved stability, and a kit comprising: (a) a first composition comprising a peroxide as a first active ingredient; and (b) a second composition comprising a retinoid as a second active ingredient; at least one of said first and said second active ingredient being coated by a metal oxide layer. | 10-25-2012 |