| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 096101000 | CHROMATOGRAPHY TYPE APPARATUS | 25 |
| 20090211452 | Micromachined Gas Chromatography Columns For Fast Separation of Organophosphonate and Organosulfur Compounds and Methods for Deactivating Same - Improved microcolumns and methods for producing microcolumns particularly suitable for use in gas chromatographs are disclosed. In particular, following deposition of the stationary phase coating, the microcolumns are subjected to a postcoating treatment with a molecule that binds to the active sites in the stationary phase column thereby eliminating or reducing loss of gas chromatograph performance associated with those active sites. The postcoating treatment molecule binds to the same active sites as the analytes of interest. | 08-27-2009 |
| 20090272270 | MICROFABRICATED GAS CHROMATOGRAPH - The present invention is generally directed to a microfabricated gas chromatograph column having two patterned substrates, each optionally having a stationary phase material coating, bonded together to provide a continuous flow channel. The flow channel can have a serpentine arrangement or a modified serpentine arrangement comprising alternating series of consecutive turns in one direction where each series has enough turns to move carrier gas and analyte molecules from the center of the column cross section to an outer wall of the channel or from one outer wall of the channel to the opposite outer wall. Different portions of the substrates can be coated with differing thicknesses of stationary phase material and/or with different stationary phase materials. The column can have a circular cross-section or a semi-circular cross-section where the flat portion of the cross-section has grooves. Also disclosed is the related method of making the microfabricated gas chromatograph column. | 11-05-2009 |
| 20110162527 | Microstructured Fibre Frit - Provided is a frit having a body comprising a matrix material, and a plurality of microcapillaries formed within the matrix material, the microcapillaries substantially aligned with a longitudinal axis of the body. The frit may comprise a microstructured fibre, such as a photonic crystal fibre. The fit may be coupled to a fluidic conduit such as a chromatography column and/or a nanoelectrospray emitter. The frit may be used in applications such as solid phase extraction, electrospray ionization mass spectrometry, microreactor systems, and filtering particles in any fluid system where there is a need to retain particles. | 07-07-2011 |
| 20120118156 | Methods And Apparatus For Making A Chromatography Column - Methods for depositing a stationary phase in a tube for chromatography, in particular, as a variable gradient column are disclosed. The methods include providing a tube having a first end and a second end, the tube containing a fluid composition comprising a stationary phase precursor and a solvent, connecting the first end of the tube to a flow device, removing the solvent from a meniscus of the fluid composition, the solvent exiting the tube at the second end, and operating the flow device while removing the solvent such that the amount of the stationary phase precursor deposited within the tube changes as the meniscus retreats within the tube to deposit a stationary phase having a thickness gradient along the length of the interior of the tube. | 05-17-2012 |
| 20140026757 | Chromatograph Device - A vial feed device is equipped with a feed arm, which is positioned between a vial tray and an oven and below either of them and having a feeding housing unit and a cooling housing unit, and a vial up-and-down moving mechanism for placing and removing vials in and from vial tray and oven. Feed arm is rotationally driven by a drive motor to move a feeding housing unit, a cooling housing unit and up-and-down moving mechanism toward vial tray or oven. High-temperature vials in oven are housed in cooling housing unit until cooling time T elapses. After cooling time T elapses, cooling housing unit is moved to a lower part of vial tray by feed arm, to be returned to vial tray by up-and-down moving mechanism. | 01-30-2014 |
| 20140060331 | INTEGRATED PARTICLE TRAP FOR CAPILLARY PLOT COLUMNS - A porous layer open tubular (PLOT) column includes capillary tubing; one or two particle traps disposed inside one or two end sections of the capillary tubing; and a stationary phase comprising a porous or non-porous material coated inside a main section of the capillary tubing. A method for preparing a porous layer open tubular (PLOT) column includes preparing one or two particle traps inside one or two end sections of a capillary tubing; and preparing a stationary phase comprising a layer of a porous material coated inside a main section of the capillary. | 03-06-2014 |
| 20140165840 | Capillary Column - There is provided a capillary column comprising a flat cross section and a desired theoretical plate number and having both high resolution and high sample load capacity. The capillary column | 06-19-2014 |
| 20140165841 | PLATE-TYPE CAPILLARY COLUMN, CAPILLARY COLUMN UNIT, AND CHROMATOGRAPH USING SAME - A plate-type capillary column has extensibility that enables a capillary to be extended as a whole to improve resolution of a chromatograph by stacking respective plate-type capillary columns. The capillary column is provided with a plate having first and second face plate parts that face each other; a capillary that is formed inside the plate; a first bottom-equipped hole connected to one end part of the capillary and formed to open in the first face plate part; and a second bottom-equipped hole connected to the other end part and formed to open in the second face plate part, wherein as viewed from a direction vertical to the first face plate part or the second face plate part, on a capillary column first virtual circle, passing through the second bottom-equipped hole, one or more through-holes penetrating through the first face plate part and the second face plate part are formed. | 06-19-2014 |
| 20160169844 | METHOD FOR MANUFACTURING A GAS PHASE CHROMATOGRAPHY COLUMN AND COLUMN OBTAINED USING SUCH A METHOD | 06-16-2016 |
| 096102000 | With control means responsive to sensed condition | 6 |
| 20090000481 | Methods and Systems For Characterizing A Sorbent Tube - Disclosed are systems and methods that include providing a vessel having an inlet and an outlet for communicating a carrier gas through the vessel; determining a differential pressure between the inlet and the outlet for a known flow rate at the outlet; and, determining a unit flow per unit pressure based on a ratio of the flow rate and the differential pressure. In certain embodiments, the flow rate at the outlet is established by controlling the flow rate of the gas. In some embodiments, the methods and systems can include a viscosity in the ratio, determining a flow rate at ambient pressure using a factor based on a ratio of a gas pressure at the output and ambient pressure, and/or, determining a flow rate at ambient temperature using a factor based on a ratio of a temperature at the output and ambient temperature. | 01-01-2009 |
| 20100251896 | GAS CHROMATOGRAPHY CHECK VALVE AND SYSTEM - An apparatus, system, and method are disclosed for a gas chromatography (GC) system with a check valve. The check valve is situated downstream from the electronic flow control module and upstream of the injector. When a sample is volatized in the injector, the check valve closes into a checked position and prevents solvent and sample from backing into the gas delivery line. In certain embodiments, the check valve has a conical plug that fits into a seat that has an aperture. When the conical plug is depressed, the conical plug engages the sides of the aperture and seals the check valve, preventing solvent and sample from backing through the check valve. In certain embodiments, the change in pressure caused by over-pressurization in the injector, combined with the force applied by a spring on the conical plug, depresses the plug such that it seals the aperture. | 10-07-2010 |
| 20110271838 | MICROTRAP ASSEMBLY FOR GREENHOUSE GAS AND AIR POLLUTION MONITORING - A microtrap assembly includes a carbon nanotube sorbent. The microtrap assembly may be employed as a preconcentrator operable to deliver a sample to an analytical device to measure the concentrations of greenhouse gases. A system includes a microtrap having a carbon nanotube sorbent for measuring the concentrations of greenhouse gases in a sample. | 11-10-2011 |
| 20130068100 | METHOD AND INSTRUMENTATION FOR COMPREHENSIVE MULTIDIMENSIONAL CHROMATOGRAPHY SEPARATIONS USING A MICRO FLOW MODULATOR - The present invention refers to a modulator, to be used for comprehensive multidimensional chromatography separations to entrap and release sample solute fractions (entrapped in a capillary loop of fixed or variable volume), deriving from a capillary column with an internal diameter ranging from 0.01 mm to 0.53 mm, onto another capillary column with an internal diameter ranging from 0.01 mm to 0.53 mm. The micro-device has been integrated in a gas chromatographic system, composed of two ovens for the independent temperature control of the two columns; the micro-device is characterized, internally, by a system of channels that enable the controlled splitting of gas flow, entering the second capillary, to generate an optimum gas linear velocity and to release the pressure in excess, with the objective of attaining the maximum separation efficiency in the second column. Furthermore, the system is equipped with a second device, to divide the flow exiting the second column in two different detectors that operate at the same or at different pressures. | 03-21-2013 |
| 20130180405 | Gas Chromatography Capillary Devices and Methods - A multicapillary bundle for use in a gas chromatograph. Each of the capillaries in the bundle is formed using a coating solution containing a stationary phase and a solvent. The capillaries are coated with stationary phase by reducing pressure at a vacuum end of the capillary and creating a moving interface between the coating solution and a film of stationary phase deposited on each of the capillaries. The reducing pressure at the vacuum end of the capillary and the temperature of the capillary are controlled to maintain motion of the moving interface away from the vacuum end of the capillary. Maintained movement of the interface prevents recoating of the stationary phase. A heating wire and capillaries are embedded in a thermally conductive polymer to create a highly responsive method of heating the multicapillary column. An electronic control device controls the feedback temperature of the multicapillary column using the heating wire. | 07-18-2013 |
| 20140290491 | COLUMN UNIT AND GAS CHROMATOGRAPHY DEVICE PROVIDED WITH THE SAME - A housing of a column unit is tubular-shaped, and includes a first opening and a second opening, and an inner space separated from outside air by an insulating material. An air cooling section including a cooling device is arranged on a side of the first opening of the housing. At the time of cooling the inside of the inner space of the housing, air is caused, by a fan, to flow through the air cooling section and from the side of the first opening to a side of the second opening. A column section including a separation column and a heater is arranged inside the housing. A gap through which air flows from the first opening to the second opening is formed between the column section and an inner wall of the inner space of the housing. | 10-02-2014 |
| 096103000 | With programmed, cyclic, or time responsive control means | 1 |
| 20120285325 | METHODS AND DEVICES FOR CIRCULATING AIR - A gas chromatography system comprising a sample introduction device, an oven coupled to the sample introduction device and a detector coupled to the oven is disclosed. In certain examples, the oven may be configured to receive a chromatography column in a space in the oven. In some examples, the oven may be constructed and arranged to provide a substantially constant temperature to the space during an analysis stage of the gas chromatography system. | 11-15-2012 |
| 096104000 | Plural separate and distinct stages | 1 |
| 20130174738 | MODIFICATION OF COLD JET NOZZLE IN A JET MODULATOR DESIGN FOR COMPREHENSIVE TWO-DIMENSIONAL GAS CHROMATOGRAPHY - A collimator fixed to the cold jet nozzle of a modulator of a two-dimensional gas chromatograph to aid in the alignment of the cold jet nozzle and loop modulator tube. | 07-11-2013 |
| 096105000 | Including injection system or inlet fluid distributor | 3 |
| 20080236395 | MULTIPLE USE SEPTUM FOR INJECTION PORTS FOR GAS CHROMATOGRAPHY OR THE LIKE - A new septum for multiple use injection ports enabling the introduction of fluid materials by needle injection into a gas chromatograph or other system under positive pressure. The injection port utilizes a special septum to seal the port while accommodating passage of an injection needle. The septum is provided with an axial through passage, preferably of greater diameter than the injection needle. The septum, which is formed of elastomeric material, is placed under axial compression sufficient to inwardly displace the material surrounding the preformed opening, to tightly close and seal the opening against the pressure of the system. The septum may be penetrated multiple times by injection needles without coring or otherwise damaging the septum. Greater operating life is achieved and contamination of the system is minimized. | 10-02-2008 |
| 20090101017 | GAS FLOW PATH SWITCHING UNITS - Disclosed is a gas flow path switching unit including a gas passage section with a target gas passage for allowing said target gas to pass therethrough. The target gas passage includes a main passage having a proximal end serving as said gas inlet and a number n of branch passages each provided with a respective gas outlet at a terminal end thereof. The branch passages are formed by repeating two or more times a branching process of branching said main passage into two sub passages at a branch point at a distal end of said main passage and further branching at least one of said sub passages into two sub-sub passages at a branch point defined by a distal end of said sub passage. The target gas passage also includes at least a number n of switching-gas supply passages connected to respective intermediate positions of said n branch passages. | 04-23-2009 |
| 20110132196 | GAS CHROMATOGRAPH COLUMN AND FABRICATING METHOD THEREOF - There is provided a gas chromatograph column. The gas chromatograph column includes: a flow passage through which gas subjected to gas chromatography is absorbed, wherein an inner wall surface of the flow passage is at least partially provided with a plurality of pores whose sizes are substantially uniform. The gas chromatograph column further includes: a first substrate made of silicon and provided with a groove therein; a second substrate disposed on the first substrate to cover the groove; and a porous layer having the pores therein and formed on an inner wall surface of the groove. | 06-09-2011 |
| 096106000 | Having system connector or coupling | 4 |
| 20090183634 | Gas chromatographic device - A gas chromatographic device comprises an inlet system and a chromatography column. The inlet system includes a liner having pressure reducing means contained therein for reducing pressure between an inlet of the pressure reducing means and an outlet of the pressure reducing means. When the devise is in use, the chromatography column is positioned in the liner of the inlet system downstream from the pressure reducing means, and the chromatography column is under vacuum at its outlet. | 07-23-2009 |
| 20090249959 | Gas chromatographic device - A gas chromatographic device comprises an inlet system and a chromatography column. The inlet system includes a liner having pressure reducing means contained therein for reducing pressure between an inlet of the pressure reducing means and an outlet of the pressure reducing means. When the devise is in use, the chromatography column is positioned in the liner of the inlet system downstream from the pressure reducing means, and the chromatography column is under vacuum at its outlet. | 10-08-2009 |
| 20140150660 | Non-Seizing Tapers for Use in Purged Connections of Capillary Tubing used in Gas Chromatography - A non-seizing taper used for purged capillary tubing connections in gas chromatography that stops capillary tubing at a predictable position within the taper during installation and maintains space for gas to flow past the capillary tubing. The disclosed taper is an improved component of commonly used purged devices such as inlet liners and purged unions. The arresting aspect of the taper simplifies the process of capillary tubing installation while ensuring that the tubing will reproducibly be positioned in the taper. One or more features of the taper prevent tubing from seizing within the taper so that the devices can be reused and ensure that there is open space for a portion of gas to flow around and past the tubing. The angle of the taper, the dimensions of the taper, and the nature of the features within the taper can be adjusted to meet specific performance, usability and/or manufacturability requirements. | 06-05-2014 |
| 20140157988 | CHROMATOGRAPHY APPARATUS HAVING DIFFUSION BONDED COUPLER - Described is a chromatography a chromatography apparatus that includes a microfluidic substrate, a coupler and a sealing fitting. The microfluidic substrate can include one or more chromatography columns, such as analytical columns or trap columns, and an inlet in communication with the one or more chromatography columns. The coupler is diffusion bonded to the surface of the microfluidic substrate so that an opening in the coupler is aligned to the inlet in the microfluidic substrate. The sealing fitting includes a heat-resistant sealant disposed in the opening of the coupler and in contact with the surface of the substrate. The coupler and sealing fitting enable a compact fluid-tight connection to the inlet of the microfluidic substrate that exhibits high tensile and torsional strength, and does not require the use of adhesives. | 06-12-2014 |
| 096107000 | Having imbedded baffle or flow distributor | 1 |
| 20090107339 | Gas Treating Apparatus - An apparatus for treating gas by using a filler is provided, for example, using an agent for detoxicating a waste gas which includes toxic substances such as silane, phosphine, hydrogen chloride, dichlorosilane, ammonia and/or various gases used in a semiconductor manufacturing process, a liquid crystal display element manufacturing process or the like. A detoxicating agent layer is provided in a flow path within a gas treating column, and ring-shaped baffle plates are provided so as to contact the upstream surface and the downstream surface of the detoxicating agent layer, with the outer edge of the baffle plate making contact with the wall of the flow path. A width of the baffle plate is set to not smaller than five times the outer diameter of the filler and not larger than 9% of the inner diameter of the gas treating column when the outer diameter di of the filler and inner diameter D of the gas treating column satisfy a relation of 5di≦0.09D, and is set to not smaller than 2% and not larger than 9% of the inner diameter of the gas treating column when a relation of 5di>0.09D is satisfied. | 04-30-2009 |
