Abstract: A sanitizer for sanitizing various surfaces including hands, hardware, fixtures, appliances, countertops, equipment, utensils and more and more specifically to a chemical-free sanitizer, more specifically to an ozone-free sanitizer and yet more specifically to an electronic sanitizer and yet more specifically to an ion source sanitizer.
Abstract: The present disclosure describes embodiments directed to a bubble based ion source system comprising an ion source configured to generate a plurality of ions, a heat source positioned above the container, an ion channel comprising an aperture and a plurality of electrodes, and/or any other components. The ion source further comprises a container at least partially comprising a solvent or solution, a bubble generator coupled to the container configured to generate a plurality of bubbles within the solvent, and/or any other component. The heat source can be configured to evaporate at least a portion of the solvent from each of the bubbles leaving a plurality of ions.
Type:
Grant
Filed:
May 5, 2016
Date of Patent:
November 7, 2017
Assignee:
University of South Florida
Inventors:
David P. Fries, William Abbott, Bo Yang
Abstract: This invention relates to a metrological scanning probe microscope system combining an SPM which employs an optical lever arrangement to measure displacement of the probe indirectly with another SPM which measures the displacement of the probe directly through the use of an interferometric detection scheme.
Type:
Grant
Filed:
November 3, 2015
Date of Patent:
October 31, 2017
Assignee:
Oxford Instruments Asylum Research, Inc
Inventors:
Aleksander Labuda, Deron Walters, Jason Cleveland, Roger Proksch
Abstract: According to some embodiments, systems and methods for rapid evaporation of liquid phase samples are provided. The method includes directing liquid samples to a thermal evaporation ionizing device, thermally evaporating the liquid samples to create gaseous molecular ions, and directing the gaseous molecular ions to an ion analyzer to analyze and provide information regarding the chemical composition of the liquid samples.
Abstract: A new experimental setup for spatially resolved ambient infrared laser ablation mass spectrometry (AIRLAB-MS) that uses an infrared microscope with an infinity-corrected reflective objective and a continuous flow solvent probe coupled to a Fourier transform ion cyclotron resonance mass spectrometer is described. The efficiency of material transfer from the sample to the electrospray ionization emitter was determined using glycerol/methanol droplets containing 1 mM nicotine and is ˜50%. This transfer efficiency is significantly higher than values reported for similar techniques.
Type:
Grant
Filed:
June 15, 2015
Date of Patent:
October 31, 2017
Assignee:
THE REGENTS OF THE UNIVERSITY OF CALIFORNIA
Inventors:
Jeremy T. O'Brien, Evan R. Williams, Hoi-Ying N. Holman
Abstract: An electrode for manipulating an ion beam. The electrode may include an insert having an ion beam aperture to conduct the ion beam therethrough, the insert comprising a first electrically conductive material; a frame disposed around the insert and comprising a second electrically conductive material; and an outer portion, the outer portion disposed around the frame and comprising a third electrically conductive material, wherein the insert is reversibly detachable from the frame, and wherein the frame is reversibly attachable from the outer portion.
Type:
Grant
Filed:
August 4, 2016
Date of Patent:
October 31, 2017
Assignee:
Varian Semiconductor Equipment Associates Inc.
Inventors:
Christopher Lupoli, Sheri A. Durgin, Daniel McGillicuddy, Victor J. Theriault, Klaus Becker
Abstract: A solution for disinfecting flowable products, such as liquids, suspensions, creams, colloids, emulsions, powders, and/or the like, as well as accessories and products relating thereto, such as containers, caps, brushes, applicators, and/or the like, using ultraviolet radiation is provided. In an embodiment, an ultraviolet impermeable cap is configured to enclose a volume corresponding to a flowable product. At least one ultraviolet radiation source can be mounted on the cap and be configured to generate ultraviolet radiation for disinfecting the enclosed area. The ultraviolet radiation source can be configured to only generate ultraviolet radiation when the volume is enclosed by the ultraviolet impermeable cap.
Type:
Grant
Filed:
April 14, 2015
Date of Patent:
October 31, 2017
Assignee:
Sensor Electronic Technology, Inc.
Inventors:
Timothy James Bettles, Alexander Dobrinsky, Michael Shur, Remigijus Gaska
Abstract: A SPM head incorporates a probe and a cantilever on which the probe is mounted. The cantilever has a planar reflecting surface proximate a free end of the cantilever. The cantilever extends from a mechanical mount and a single-mode optical fiber is supported by the mechanical mount to provide a beam. A micromirror is mounted to reflect the beam substantially 90° to the planar reflecting surface.
Type:
Grant
Filed:
February 18, 2016
Date of Patent:
October 24, 2017
Assignee:
Angstrom Science, Inc.
Inventors:
Andrew Norman Erickson, Stephen Bradley Ippolito
Abstract: Systems and methods for providing a radiopaque shield affixed to a medical device hangar. Such systems and methods reduce radiation exposure to circulating medical staff during fluoroscopy procedures and reduce equipment clutter and cost.
Type:
Grant
Filed:
August 14, 2015
Date of Patent:
October 24, 2017
Assignee:
Trans-Radial Solutions LLC
Inventors:
Barney C. Wasson, Jr., Andrew W. Shealy, James E. Conner
Abstract: To irradiate a target with a beam of energetic electrically charged particles, the beam is formed and imaged onto a target, where it generates a pattern image composed of pixels. The pattern image is moved along a path on the target over a region to be exposed, and this movement defines a number of stripes covering said region in sequential exposures and having respective widths. The number of stripes is written in at least two sweeps which each have a respective general direction, but the general direction is different for different sweeps, e.g. perpendicular to each other. Each stripe belongs to exactly one sweep and runs substantially parallel to the other stripes of the same sweep, namely, along the respective general direction. For each sweep the widths, as measured across said main direction, of the stripes of one sweep combine into a cover of the total width of the region.
Abstract: Power supply, in particular for a sterilization device, comprising a housing, wherein the housing comprises at least a first sector and a second sector, wherein the first sector comprises a first pair of opposing side walls, and wherein the second sector comprises a second pair of opposing side walls, wherein the side walls are orientated basically parallel to a vertical axis of the housing, wherein the first pair of side walls is arranged in a first angle and the second pair of side walls is arranged in a second angle, wherein the first angle and the second angle are different from each other.
Abstract: Disclosed herein is a method of generating a high resolution image of a cellular sample, the method including i) labeling a cellular sample with at least one mass tag, thereby producing a labeled sample in which a biological feature of interest is associated with the at least one mass tag, ii) scanning the sample with a continuous or near-continuous primary ion beam to generate sputtered secondary ions and sputtered neutral species, iii) photoionizing the sputtered neutrals to generate ionized neutral species, wherein the sputtered neutrals are photoionized at a site that is proximal to their source on the sample, iv) detecting the ionized neutral species by mass spectrometry, thereby obtaining spatially addressed measurements of the abundance of the at least one mass tag across an area of the sample, and v) producing an image of the sample using the measurements. A system for performing the method is also provided.
Type:
Grant
Filed:
April 20, 2016
Date of Patent:
October 24, 2017
Assignee:
The Board of Trustees of the Leland Stanford Junior University
Abstract: In a mass spectrometric method of the invention, a mass spectrometer (2) is used having a mass separation unit (231, 234) before and after a collision cell (232) for fragmenting ions. When a product ion corresponding to a precursor ion set for a sample is selected by performing product ion scan with respect to the precursor ion, an exclusion range of mass-to-charge ratios is set based on information on non-selection ions input by a user, and a product ion that satisfies a predefined criterion is selected within a range of mass-to-charge ratios excluding the exclusion range in a product ion spectrum. According to the mass spectrometric method of the invention, product ions suited for measurement on a target compound can be selected.
Abstract: A method of screening a sample for at least one compound of interest is disclosed. The method comprises comparing the ion mobility and at least one further physicochemical property of the ions of a compound of interest to the same properties of candidate ions in the sample. The properties of the compound of interest are matched to those of a candidate ion in the sample then the sample may be determined to comprise the compound of interest.
Type:
Grant
Filed:
April 15, 2014
Date of Patent:
October 24, 2017
Assignee:
Micromass UK Limited
Inventors:
Christopher Carver, David Eatough, Andrew Golding, Jeffrey Goshawk, Michael McCullagh
Abstract: A mass spectrometer is disclosed comprising two vacuum chambers maintained at different pressures. The two vacuum chambers are interconnected by a differential pumping aperture. The effective area of the opening between the two vacuum chambers may be varied by rotating a disk having an aperture in front of the differential pumping aperture so as to vary the gas flow rate through the opening and between the two chambers.
Abstract: A focused ion beam apparatus is equipped with a gas field ion source that can produce a focused ion beam for a long period of time by stably and continuously emitting ions from the gas field ion source having high luminance, along an optical axis of an ion-optical system for a long period of time. The gas field ion source has an emitter for emitting ions, the emitter having a sharpened end part made of iridium fixed to a cylinder-shaped base part made of dissimilar wire.
Abstract: There is disclosed an image generation apparatus which is capable of generating a clear image by reducing vibration of the image. The image generation apparatus includes an electron-optics column having an electron gun, a deflector, a condenser lens, and an objective lens, a displacement detector for detecting a displacement of an XY stage, a stage-position measuring device for specifying a position of the XY stage based on an output signal of the displacement detector, an accelerometer for detecting vibration of the electron-optics column, an acceleration-signal processing device for processing an output signal of the accelerometer, and a deflection-controlling device for controlling operation of the deflector.
Abstract: The invention generally relates to zero volt mass spectrometry probes and systems. In certain embodiments, the invention provides a system including a mass spectrometry probe including a porous material, and a mass spectrometer (bench-top or miniature mass spectrometer). The system operates without an application of voltage to the probe. In certain embodiments, the probe is oriented such that a distal end faces an inlet of the mass spectrometer. In other embodiments, the distal end of the probe is 5 mm or less from an inlet of the mass spectrometer.
Type:
Grant
Filed:
December 3, 2015
Date of Patent:
October 10, 2017
Assignee:
Purdue Research Foundation
Inventors:
Robert Graham Cooks, Michael Stanley Wleklinski, Soumabha Bag, Yafeng Li
Abstract: A scanning probe microscope system. A sample stage is provided along with a microscope arranged to collect data with a probe carried by the microscope from a sample carried by the sample stage. A probe/sample exchange mechanism is arranged to exchange the probe carried by the microscope with a new probe, and is also arranged to exchange the sample carried by the sample stage with a new sample.