Inventors list |
Assignees list |
Classification tree browser |
Top 100 Inventors |
Top 100 Assignees |
Denisov
Eduard V. Denisov, Bremen DE
| Patent application number | Description | Published |
|---|---|---|
| 20080315080 | Electrostatic Trap - An electrostatic trap such as an orbitrap is disclosed, with an electrode structure. An electrostatic trapping field of the form U′(r,φ,z) is generated to trap ions within the trap so that they undergo isochronous oscillations. The trapping field U′(r, φ,z) is the result of a perturbation W to an ideal field U(r, φ,z) which, for example, is hyperlogarithmic in the case of an orbitrap. The perturbation W may be introduced in various ways, such as by distorting the geometry of the trap so that it no longer follows an equipotential of the ideal field U(r, φ,z), or by adding a distortion field (either electric or magnetic). The magnitude of the perturbation is such that at least some of the trapped ions have an absolute phase spread of more than zero but less than about 2π radians over an ion detection period T | 12-25-2008 |
| 20090127456 | RF Power Supply for a Mass Spectrometer - The present invention provides a radio frequency (RF) power supply in a mass spectrometer. The power supply provides an RF signal to electrodes of a storage device to create a trapping field. The RF field is usually collapsed prior to ion ejection. In an illustrative embodiment the RF power supply includes a RF signal supply; a coil arranged to receive the signal provided by the RF signal supply and to provide an output RF signal for supply to electrodes of an ion storage device; and a shunt including a switch operative to switch between a first open position and a second closed position in which the shunt shorts the coil output. | 05-21-2009 |
| 20100181475 | ELECTROSTATIC TRAP - An electrostatic trap such as an orbitrap is disclosed, with an electrode structure. An electrostatic trapping field of the form U′(r, φ, z) is generated to trap ions within the trap so that they undergo isochronous oscillations. The trapping field U′(r, φ, z) is the result of a perturbation W to an ideal field U(r, φ, z) which, for example, is hyperlogarithmic in the case of an orbitrap. The perturbation W may be introduced in various ways, such as by distorting the geometry of the trap so that it no longer follows an equipotential of the ideal field U(r, φ, z), or by adding a distortion field (either electric or magnetic). The magnitude of the perturbation is such that at least some of the trapped ions have an absolute phase spread of more than zero but less than 2 π radians over an ion detection period T | 07-22-2010 |
| 20100193680 | Mass Spectrometry - This invention relates to a mass spectrometer including a reaction cell and to a method of using such a mass spectrometer. In particular, although not exclusively, this invention relates to a tandem mass spectrometer and to tandem mass spectrometry. The invention provides a method of mass spectrometry using a mass spectrometer having a longitudinal axis, comprising guiding ions to travel along the longitudinal axis of the mass spectrometer in a forwards direction to pass through an intermediate ion store and then to enter a reaction cell, to process the ions within the reaction cell, to eject the processed ions to travel back along the longitudinal axis to enter the intermediate ion store once more, and to eject one or more pulses of the processed ions in an off-axis direction to a mass analyser. | 08-05-2010 |
| 20100224774 | Electrode for influencing ion motion in mass spectrometers - An electrode for influencing ion motion in mass spectrometers, having a dielectric substrate and a conducting layer on portions of the substrate, wherein peripheral borders, edges or convex shapes of the conducting layer adjoin free regions of the substrate. According to the invention, a dielectric layer is provided on transitions from the conducting layer to the adjoining free regions of the substrate such that at least some of the peripheral borders, edges or convex shapes of the conducting layer are covered. | 09-09-2010 |
| 20110057099 | ION TRAPPING - This invention relates to a method of trapping ions and to an ion trapping assembly. In particular, the present invention has application in gas-assisted trapping of ions in an ion trap prior to a mass analysis of the ions in a mass spectrometer. The invention provides a method of trapping ions in a target ion trap of an ion trapping assembly that comprises a series of volumes arranged such that ions can traverse from one volume to the next, the volumes including the target ion trap, whereby ions are allowed to pass repeatedly through the volumes such that they also pass into and out from the target ion trap without being trapped. Potentials may be used to reflect the ions from respective ends of the ion trapping assembly. Optionally, a potential well and/or gas-assisted cooling may be used to cause the ions to settle in the target ion trap. | 03-10-2011 |
| 20110084205 | Collision Cell - A method of operating a gas-filled collision cell in a mass spectrometer is provided. The collision cell has a longitudinal axis. Ions are caused to enter the collision cell. A trapping field is generated within the collision cell so as to trap the ions within a trapping volume of the collision cell, the trapping volume being defined by the trapping field and extending along the longitudinal axis. Trapped ions are processed in the collision cell and a DC potential gradient is provided, using an electrode arrangement, resulting in a non-zero electric field at all points along the axial length of the trapping volume so as to cause processed ions to exit the collision cell. The electric field along the axial length of the trapping volume has a standard deviation that is no greater than its mean value. | 04-14-2011 |
| 20110163227 | Ion Trap for Cooling Ions - A method of changing the kinetic energy of ions is provided, comprising: trapping ions in a trapping region of an ion trap; and directing a beam of gas through the trapping region, so as to change the kinetic energy of the trapped ions thereby. Also provided is a method of separating ions, the method comprising: causing ions to enter a trapping region of an ion trap along a first axis of the trapping region; directing a beam of gas along the first axis and applying an electric potential in the direction of the first axis so as to cause separation of the ions based on their ion mobility. An ion trap and a mass spectrometer for performing the methods are also provided. | 07-07-2011 |
| 20110315873 | Ion Storage Device with Direction-Selective Radial Ejection - The present invention provides a radio frequency (RF) power supply in a mass spectrometer. The power supply provides an RF signal to electrodes of a storage device to create a trapping field. The RF field is usually collapsed prior to ion ejection. In an illustrative embodiment the RF power supply includes a RF signal supply; a coil arranged to receive the signal provided by the RF signal supply and to provide an output RF signal for supply to electrodes of an ion storage device; and a shunt including a switch operative to switch between a first open position and a second closed position in which the shunt shorts the coil output. | 12-29-2011 |
Emil Denisov, Moscow RU
| Patent application number | Description | Published |
|---|---|---|
| 20090120811 | APPARATUS FOR STORAGE AND LIBERATION OF COMPRESSED HYDROGEN GAS IN MICROCYLINDRICAL ARRAYS AND SYSTEM FOR FILLING THE MICROCYLINDRICAL ARRAYS - An apparatus for storage and liberation of compressed hydrogen or other gases is provided. The apparatus includes a housing defining a chamber that includes a cartridge comprising an array of hollow microcylinders defining cavities for storage compressed gas. Each microcylinder has at least one end sealed with a plug made of an easily meltable alloy. The apparatus also includes a gas liberating tool configured for controllable liberating the gas from the cartridge into the chamber; and a control system operatively coupled to the discharge valve and liberating tool, and configured for controlling operation thereof. According to another aspect of the invention, there are provided a system and method for filling a cartridge having an array of hollow microcylinders having open ends. The filling includes placing the cartridge into a chamber of an autoclave, and compressing the gas in the chamber, thereby providing permeation of the gas through the open ends into cavities of the microcylinders. Thereafter, the open ends are sealed with plugs made of an easily meltable alloy. | 05-14-2009 |
| 20100059528 | Apparatus for gas storage - An apparatus for gas storage is described. The apparatus contains a storage array structure including a gas storage portion tapered into at least one neck portion at one end of the structure. The storage array structure includes a plurality of tubular chambers for gas storage. At least a portion of an outer surface of the storage array structure is enveloped by at least one reinforcing layer for providing reinforcing strength thereto. The apparatus also includes at least one interface coupler mounted on the reinforcing layer at the neck portion. The interface coupler is configured for coupling the tubular chambers of the storage array structure to a gas pipe through which the gas can be supplied to the chambers of the array structure or discharged therefrom. | 03-11-2010 |
Evgeniy Nikolaevich Denisov, Leninogorsk RU
| Patent application number | Description | Published |
|---|---|---|
| 20110315387 | SYSTEM AND METHOD FOR CLEANING A BOTTOM-HOLE FORMATION ZONE OF A WELLBORE - A system for cleaning a bottom-hole formation zone of a wellbore comprises a flow string for extending into the bottom-hole formation zone of the wellbore. A hydrostatic joint is disposed along the flow string. The hydrostatic valve includes a valve which controls the flow of fluid through the flow string. There is a fluid supply for discharging fluid into the wellbore around the flow string to create a hydrostatic pressure differential between the flow string and the wellbore. Fluid and suspended solids in the bottom-hole formation zone of a wellbore are prevented from flowing into the flow string when the valve is closed. However, fluid and suspended solids in the bottom-hole formation zone of a wellbore are permitted to flow into the flow string when the valve is open. | 12-29-2011 |
Grigory Gennadievich Denisov, Nizhny Novgorod RU
| Patent application number | Description | Published |
|---|---|---|
| 20090123663 | High velocity method for depositing diamond films from a gaseous phase in SHF discharge plasma and a plasma reactor for carrying out said method - The invention relates to carbon deposition by decomposing gaseous compounds with the aid of the SHF discharge plasma and can be used, for example, for producing polycrystalline diamond films (plates), which are used for producing output windows of power SHF sources, for example gyrotrons. Said invention ensures a high speed deposition of the high quality diamond films (having a loss-tangent angle □ equal to or less than 3×10 | 05-14-2009 |
| 20100218722 | High velocity method for depositing diamond films from a gaseous phase in SHF discharge plasma and a plasma reactor for carrying out said method - The invention relates to carbon deposition by decomposing gaseous compounds with the aid of the SHF discharge plasma and can be used, for example, for producing polycrystalline diamond films (plates), which are used for producing output windows of power SHF sources, for example gyrotrons. Said invention ensures a high speed deposition of the high quality diamond films (having a loss-tangent angle □ equal to or less than 3×10 | 09-02-2010 |
Igor Vladimirovich Denisov, Chernogolovka Moskovskaya Obl. RU
| Patent application number | Description | Published |
|---|---|---|
| 20110250465 | MULTILAYER MATERIAL WITH ENHANCED CORROSION RESISTANCE (VARIANTS) AND METHODS FOR PREPARING SAME - The present invention relates to the development of variants of multilayer structural materials with enhanced corrosion resistance, including successively connected outer main layers which directly contact corrosive operating environments on one or both sides of the multilayer material and, disposed therebetween, alternating internal main and internal sacrificial layers. The main layers are made of metallic materials which are characterized by a state of passivity over a prolonged period with subsequent development therein of pitting-type corrosion, while the internal sacrificial layers, which contact the corrosive operating environment as deep foci of pitting corrosion develop in the preceding outer and internal main layers, are characterized by the development of general corrosion and have a protective action in relation to the outer and internal main layers. Methods for preparing such materials are proposed. | 10-13-2011 |
Ilia G. Denisov, Urbana, IL US
| Patent application number | Description | Published |
|---|---|---|
| 20090257950 | Membrane Scaffold Proteins - The membrane scaffold proteins (MSP) of the present invention assemble with hydrophobic or partially hydrophobic proteins to form soluble nanoscale particles which preserve native structure and function; they are improved over liposomes and detergent micelles, both in terms of stability and preservation of biological activity and native conformation. In the presence of phospholipid, MSPs form nanoscopic phospholipid bilayer disks, with the MSP stabilizing the particle at the perimeter of the bilayer domain. The particle bilayer structure allows manipulation of incorporated proteins in solution or on solid supports, including for use with such surface-sensitive techniques as scanning probe microscopy or surface plasmon resonance. The nanoscale particles, which are robust in terms of integrity and maintenance of biological activity of incorporated proteins, facilitate pharmaceutical and biological research, structure/function correlations, structure determinations, bioseparations, and drug discovery. | 10-15-2009 |
Vitaly I. Denisov, Moscow RU
| Patent application number | Description | Published |
|---|---|---|
| 20120023579 | PROTECTION AGAINST MALWARE ON WEB RESOURCES - A method and system for identification of malware threats on web resources. The system employs a scheduled antivirus (AV) scanning of web resources. The scheduled scanning of web resources allows to create malware check lists and to configure access to web resources. Frequency and depth of inspection (i.e., scan) are determined for each web resource. The user identifiers are used for scheduled AV scanning of web resources. The system allows for scanning a web resource based on selected configurations without using additional client applications. | 01-26-2012 |
Vladimir Denisov, Santa Cruz, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20100057371 | DETERMINATION OF THE INTEGRITY OF RNA - Methods, systems, and apparatus make a determination of a level of integrity of a sample of biomolecules. For example, the determination of the integrity of RNA in a sample may be done in a fast and reproducible manner, such that the user can be assured of accuracy of a test (e.g. quantitative polymerase chain reaction qPCR) on the sample and compare results of different samples. The determination of integrity of an RNA sample is performed by comparing a size profile to reference size profiles (degradation standards) obtained from degradation over different lengths of times. As the reference scale of the level of integrity is derived from the actual degradation that occurs in a sample, high accuracy, reproducibility, and efficiency is provided. | 03-04-2010 |