Entries |
Document | Title | Date |
20080197078 | Hplc Capillary Column Device - A high pressure liquid chromatography (HPLC) capillary column device, system and method for processing a HPLC sample with a cartridge housing a packed capillary column; at least one inlet connection to the capillary column for a sample fluid; and at least one outlet connection from the capillary column for the sample fluid. The outlet connection is able to accommodate either a spray tip for atomizing the sample fluid or a transport tube for transporting the sample fluid from a spray tip column to a spray tip. Inlet connections enable supply of electrical power to the capillary column through electrical connections disposed within the cartridge housing; and gas for evaporating the sample liquid is supplied to at least one outlet connection from the capillary column for the sample fluid through a gas supply line within the cartridge housing. The temperature of the sample liquid can be controlled through a heat connection. | 08-21-2008 |
20080203027 | Organosilanes and substrate bonded with same - The present invention, provides novel silicon compounds, methods for making these novel silicon compounds, compositions comprising these novel silicon compounds attached to substrates, methods for attaching the novel silicon compounds to substrates and methods for using the compositions in a variety of chromatographic applications. | 08-28-2008 |
20080217248 | PACKING SYSTEM AND METHOD FOR CHROMATOGRAPHY COLUMNS - The invention relates to a system for packing chromatography columns with a chromatography medium and packing method for use in such columns. In particular, the invention relates to a method and system for packing chromatography columns which utilises an external drive means to compress a bed of particulate medium to a target bed height. | 09-11-2008 |
20080217249 | METHOD AND EQUIPMENT FOR MONITORING SYNTROPHIC RELATIONS IN A BIOLOGICAL PROCESS FLUID - A method and an equipment for monitoring the syntrophic relations between different parts of a bacterial consortium in the process fluid of a biological process plant, such as a biological gas plant or waste water treatment plant, through a chromatographic measurement of the content of the individual volatile fatty acids in consecutive samples of the process fluid, the samples being acidified and filtered prior to the chromatographic separation | 09-11-2008 |
20080217250 | Flash chromatography cartridge - A low pressure liquid chromatographic cartridge is provided having a tubular polymer container adapted to receive a chromatographic packing material. The container has an outlet port located at a downstream end of the container and container threads formed on an upstream end of the container. A polymer cap having cap threads located on the cap threadingly engage the container threads. An inlet port is located on an upstream end of the cap. A flange depends from the cap and mates with the lip of the container to form a fluid tight seal between the polymer cap and container suitable for use in low pressure liquid chromatography. A locking tab on a skirt of the cap engages a recess on the container when the seal engages the cap and container to lock the cap in position relative to the container. Alternatively, continuous screw threads on the cap and container may hold the parts together. | 09-11-2008 |
20080223786 | Methods and devices using a shrinkable support for porous monolithic materials - Articles of manufacture and devices and methods of forming and using the same are provided, wherein the article comprises a porous inorganic substrate contained in or bounded by a support made from an inorganic material are provided, wherein said porous substrate and support are heated to a temperature effective to shrink the support onto the porous substrate such that liquid tight contact is formed between the porous substrate and the support. In a preferred aspect, the porous inorganic substrate has a porosity of at least 5%, and is a porous monolith formed using a sol-gel method. The articles thus formed provide a confined fluid flow through the porous substrate, providing superior performance in separations, catalysis, filtration, and the like. | 09-18-2008 |
20080237130 | Compositions and Methods for Separating Enantiomers - A liquid chromatography system comprising a chiral mobile phase used to separate enantiomeric molecules present in a sample is disclosed herein. In one aspect, the mobile phase comprises a chiral solvent. In another aspect, the mobile phase includes a chiral solvent but also a buffering agent. The liquid chromatography system described herein includes both high pressure liquid chromatography (HPLC) as well as high pressure capillary liquid chromatography (CapLC). | 10-02-2008 |
20080237131 | Methods and systems for purifying gases - The present invention relates to methods and systems for purifying gases, such as for example semiconductor process gases. The invention more particularly relates to fluid purification methods and systems having improved heat transfer capabilities and controls such that the purified fluid produced from the process contains reduced impurity levels and/or exhibits more uniform concentrations within the final product. In another aspect of the invention, the activation time for adsorbent beds used in such processes and systems can be reduced. | 10-02-2008 |
20080264864 | PROCESS FOR REMOVING FLUORINATED EMULSIFIER FROM FLUOROPOLMER DISPERSIONS USING AN ANION-EXCHANGE RESIN AND A pH-DEPENDENT SURFACTANT AND FLUOROPOLYMER DISPERSIONS CONTAINING A pH-DEPENDENT SURFACTANT - A process of reducing the amount of fluorinated emulsifiers in fluoropolymer dispersions by contacting the fluoropolymer dispersion with an anion exchange resin in the presence of a pH-dependent surfactant, and fluoropolymer dispersions containing the pH-dependent surfactant and uses thereof. | 10-30-2008 |
20080277345 | Device for Holding a Column or Cartridge in Proximity to a Detector and Methods of Using the Same - Embodiments of the present invention are directed to methods and devices for minimizing band spreading of compositions separated by chromatographic processes. One embodiment of the present invention features a device ( | 11-13-2008 |
20080277346 | Process for preparing substrates with porous surface - A process for preparing nanoparticle coated surfaces including the steps of electrostatically coating surfaces with polyelectrolyte by exposing the surface to a solution or suspension of polyelectrolyte, removing excess non-bound polyelectrolyte, then further coating the particles with a multi-layer of charged nanoparticles by exposing the polyelectrolyte-coated surface to a fluid dispersion including the charged nanoparticles. The process steps can optionally be repeated thereby adding further layers of polyelectrolyte followed by nanoparticles as many times as desired to produce a second and subsequent layers. The polyelectrolyte has an opposite surface charge to the charged nanoparticles and a molecular weight at the ionic strength of the fluid that is effective so that the first, second, and subsequent layers independently comprise a multiplicity of nanoparticle layers that are thicker than monolayers. | 11-13-2008 |
20080308498 | CHROMATOGRAPHY COLUMN AND METHOD OF MAINTENANCE - A chromatography column and method of maintenance is described which does not require the use of a hoist or crane for disassembly. The method provides improved operator safety by reducing the need for the operator to work below a suspended or supported load within the column. Furthermore, the removal or replacement of column components is facilitated by providing access to the interior of the column and by the provision of a handling device. | 12-18-2008 |
20080314835 | Chiral separating agents with active support - A chiral stationary phase for use in chromatographic separation comprising a chiral selector compound and a chiral support material, wherein the chiral support material comprises a polymer comprising at least 30% chiral monomer of the same orientation. | 12-25-2008 |
20090008333 | Perchlorate Destruction - Perchlorate is removed and effectively destroyed in devices and methods that employ a eluting solvent in which the anion of an acid solubilizes Ti (III), which may be electrochemically generated or added in situ. Using such solvents, destruction of perchlorate is unexpectedly and several orders of magnitude faster than using solvents without solubilizing acids. In most preferred aspects, the solubilizing acid is methane sulfonic acid and/or sulfamic acid, and Ti (III) is electrochemically generated. Perchlorate destruction will then result in formation of Ti (IV), which may be present in the eluent in a subsequent elution. | 01-08-2009 |
20090014388 | Grafted Photo-Polymerized Monolithic Column - The present invention relates to the fabrication of a grafted, UV photo-polymerized silica-based monolithic column and the use of such column for the extraction of DNA. In one embodiment, a method is provided for fabricating a silica-based monolithic column, wherein a vessel is filled with a polymerization mixture that is formed into monolithic solid phase for DNA extraction through in situ photo-polymerization. | 01-15-2009 |
20090014389 | Intelligent system and method for automated packing of chromatography columns - The present invention provides an automated system and method for packing chromatography columns. In one embodiment, the system first determines the type of media that is present in the column, and uses this information to generate an automated procedure to pack the specific media type. In a second embodiment, the media type is made known to the system, such as via input from the operator. The system then uses this information, in the same manner as in the first embodiment, to generate an automated procedure to pack the specific media type. Finally, in a third embodiment, parameters such as column height and rate of compression are made known to the system, such as via input from the operator. The system then packs the column in accordance with these supplied parameters. | 01-15-2009 |
20090039023 | CHROMATOGRAPHY COLUMN - A chromatography column having a longitudinal axis and comprising a column wall with a first end and a second end, a first end plate assembly removably connectable to said first end of the column wall, a second end plate assembly removably connectable to said second end of the column wall, wherein said first end plate assembly, said column wall and said second end plate assembly are arranged along the longitudinal axis of the column wherein the column wall, and/or first end plate assembly and/or second end plate assembly is/are rotatable about an axis of rotation wherein said axis of rotation is parallel to the longitudinal axis of said column and positioned outside the column. | 02-12-2009 |
20090050566 | Media for membrane ion exchange chromatography based on polymeric primary amines, sorption device containing that media, and chromatography scheme and purification method using the same - Media and devices, such as anion exchangers including such media, wherein the media is a membrane having a surface coated with a polymer such as a polyallylamine. The resulting membrane offers stronger binding of protein impurities and superior removal of host cell proteins from biological samples than conventional ligands based on quaternary ammonium salts, including trimethylammonium ligands. Also described is a chromatography scheme and method for purifying monoclonal antibodies, wherein the anion exchange sorber is placed downstream of an affinity column (such as Protein A or Protein G affinity column) and optionally one or more polishing devices such as cationic exchange columns. Little or no dilution of the cation exchanger pool (or affinity column exchange pool where no cation exchanger is used) is necessary to lower the conductivity of the sample. The sorber functions well to strongly bind host cell proteins and other impurities in biological samples even at high conductivities and pH. | 02-26-2009 |
20090057227 | LIQUID DELIVERY DEVICE, LIQUID CHROMATOGRAPH, AND METHOD FOR OPERATION OF LIQUID DELIVERY DEVICE - The present invention provides a liquid delivery device for liquid chromatographs which, by performing liquid delivery at an accurate flow rate with limited pulsation, gives accurate results of analyses. The present invention, with a view to preventing erroneous operation due to errors in measurements at the time of judgment of completion of compression of liquid, establishes the judgment point before the pressure measured by a cylinder pressure detector agrees with the pressure measured by a discharge pressure detector and also calculates the point of completion of compression. Control in this manner prevents pressure fluctuation. It also calculates for control the point of completion of compression from the history of compression performed previously. | 03-05-2009 |
20090065433 | Improved Analysis of Polymeric Scale Inhibitors - The scale inhibitors in a variety of aqueous systems, or a part or sample thereof, also including one or more dissolved interfering ions, are separated therefrom and analyzed, such scale inhibitors comprising a polymer containing at least one anionic functional group, e.g., a strong acid functional group or a phosphonate or phosphate ester, and such analysis including treating these aqueous systems with a cationic substrate or a free cation. | 03-12-2009 |
20090090671 | Apparatus to assist platelet manipulation to prevent and treat endovascular disease and its sequelae - The utilization of electrical potential and currents, as well as magnetic fields and mixed-phase reactions to effect efficient separation of platelets from blood without initiating platelet activation. | 04-09-2009 |
20090095681 | P-TERT-BUTYLCALIX[6]ARENES WITH TRIACIDIC FUNCTIONS AT 2, 4 AND 6, SUPPORTED LIQUID MEMBRANES AND SUPPORT MATERIALS COMPRISING THE SAME AND USE THEREOF - The invention relates to novel p-tert butylcalix[6]arenes of formulae (IA) and (IB) with carboxylic or hydroxyamino triacidic functions in positions 2, 4 and 6, and other functions in positions 1, 3 and 5, supported liquid membranes and support materials comprising the above and the uses thereof. | 04-16-2009 |
20090101580 | Production of monolithic separating columns - The present invention relates to a process for the production of monolithic separating columns using monolithic moldings whose diameter is reduced by grinding, and to separating columns having improved separation efficiency produced in this way, and to the use thereof. | 04-23-2009 |
20090101581 | Immobilized titanium ion affinity chromatography material and its preparation and application - The present invention relates to an immobilized titanium ion affinity chromatography material and its preparation and application. Titanium ion is immobilized on solid support by taking advantage of strong interaction between titanium ions and phosphate groups on the solid support. The immobilized titanium ion affinity chromatography material is applied to enrich phosphopeptides. Phosphopeptides are isolated because they retained on the affinity material due to the strong chelating interaction between the immobilized titanium ions and the phosphate groups on the phosphopeptides. | 04-23-2009 |
20090120878 | SEPARATION OF A MIXTURE OF POLYHYDRIC ALCOHOLS - The present invention provides methods of separating at butanediol compound from a mixture containing polyhydric alcohols and butanediol compounds. The mixture of polyhydric alcohols typically contains propylene glycol and ethylene glycol in addition to the butanediol contaminants. Butanediol contaminants are removed by contacting the mixture with a chromatographic matrix. Either the butanediol compounds or the non-butanediol compounds adsorb to the chromatographic matrix. If desired, the adsorbed compounds may be eluted from the matrix, purified and used in products. | 05-14-2009 |
20090139934 | DIFFERENTIAL ACCELERATION CHROMATOGRAPHY - Methods and related systems are described for improving component separations in chromatography through novel techniques. The improvements in separation is due primarily to the provision of differential acceleration of the components being separated. Various systems and methods for providing differential acceleration are described including: increasing the cross section of the column towards the column outlet, changing the thickness or other composition of stationary phase within the column, and providing a temperature and/or mobile phase velocity gradient along the column. | 06-04-2009 |
20090152201 | STABILIZED SILICA COLLOIDAL CRYSTALS - The present invention relates to stabilized silica colloidal crystals. In particular, the present invention relates to silica colloidal crystals having improved mechanical strength and durability. The present invention also relates to methods of making stabilized silica colloidal crystals by direct bonding between nanoparticles or between a polymer and nanoparticles through a siloxane bond. | 06-18-2009 |
20090166292 | Method of Analyzing Optical Isomers or Method of Resolving the Same - Provided are a method of quickly and simply confirming the success or failure of resolution of optical isomers with the use of a column for resolving optical isomers and a method of simply designing the conditions of the eluent composition under isocratic elution conditions. In resolving optical isomers, the success or failure of the resolution can be simply and quickly confirmed by employing an HPLC gradient elution analysis method with the use of a column for resolving optical isomers. When the resolution is successfully conducted, the eluent composition under isocratic elution conditions can be estimated from the elution time in the gradient elution analysis. | 07-02-2009 |
20090166293 | CHEMICAL SUPPRESSORS AND METHOD OF USE - A non-electrolytic method and apparatus for treating an aqueous sample stream including analyte ions and matrix ions of opposite charge, for pretreatment or suppression. The apparatus includes an ion exchange membrane capable of passing only ions of opposite charge to the analyte ions, a sample stream flow channel, a first aqueous stream ion receiving flow channel adjacent one side of the sample stream flow channel and separated therefrom by the first ion exchange membrane, and stationary flow-through ion exchange packing disposed in the sample stream flow channel. The ion receiving channel has an ion exchange capacity for the matrix ions less than about 25% of the ion exchange capacity for the matrix ions. | 07-02-2009 |
20090184052 | METHOD FOR REMOVING AIR FROM A CHROMATOGRAPHY COLUMN - The invention relates to a method for removing air from the bed space of a chromatography column. The method involves use a chromatography column having an inner wall which comprises at least one elongated groove through which air can pass from the bed space to a chamber above an adapter assembly. | 07-23-2009 |
20090188868 | Microfluidic Device for Sample Analysis - A device for sample analysis includes a microfluidic device for separating analytes of a sample comprising a liquid, the microfluidic device comprising a substrate having a first surface and a second surface opposite the first surface, the substrate defining features that collectively occupy an area of the substrate of about 0.1 to 10 cm | 07-30-2009 |
20090188869 | Multi-layered macromolecules and methods for their use - Multi-layered macromolecules wherein the layers are covalently bonded together and wherein the macromolecules are covalently bonded to solid particulate substrates, methods for the preparation of such compositions, and methods for their uses in a multitude of end use applications ranging from the purification of waste chemical and metal process streams to the separation and identification of proteins, peptides, and oligionucleotides. | 07-30-2009 |
20090194481 | Agglomerated MIP Clusters - The present invention relates to a composite material obtainable by agglomerating molecularly imprinted polymer particles, and the use of said composite material in separations such as chromatographic separation, a filtration process, continuous or discontinuous membrane process, analytical separation, or a preparative or large-scale separation. | 08-06-2009 |
20090200239 | METHOD FOR GENERATING METAL CHELATING AFFINITY LIGANDS - The present invention relates to a method for generating at least one polydentate metal chelating affinity ligand, which method comprises the steps of | 08-13-2009 |
20090211978 | Passive column pre-heater with sample band spreading reduction feature - Disclosed is a chromatographic system and method which includes a passive pre-heater assembly. In the inventive system and method a fluid mixture is supplied from an injector to the pre-heater assembly and then to a chromatographic column having an active heating source. The pre-heater assembly includes a convoluted tube with first and second ends and a fluid passage extending centrally therebetween, first and second end fittings attached respectively to the first and second ends of the convoluted tube, and a thermally conductive film attached to an outer surface of the convoluted tube. The first end fitting is adapted for fluidly connecting the first end of the convoluted tube to the injector and the second end fitting is adapted for fluidly connecting the second end of the convoluted tube to the chromatographic column. The thermally conductive film conveys heat from an active heating source of a chromatographic column to the convoluted tube when the pre-heater assembly is positioned adjacent to the active heating source. The central fluid passage in the convoluted tube has a series of bends which function to create a secondary fluid flow field that is substantially orthogonal to a primary flow field established when fluid is traversing the fluid passage in the tube. | 08-27-2009 |
20090211979 | Ion chromatography system with eluent recycle - Ion chromatography apparatus including (a) a chromatographic column, (b) a source of an aqueous eluent liquid stream, (c) a detector, (d) a recycle line between the detector and the chromatographic column, and (e) a purifying device disposed along the recycle line including ion exchange removal medium. Also, such apparatus with an electrolytic purifying device disposed along the recycle line. Also, methods of using such apparatus. | 08-27-2009 |
20090218286 | DEVICE FOR CHROMATOGRAPHIC SEPARATIONS - A device is provided for chromatographic separations comprising a manifold comprising a plurality of connectors for connecting to one or more chromatographic separation columns and/or feed or extraction tubing. At least one central duct is formed between at least two connectors forming an inlet and an outlet respectively. The central duct comprises a closable duct valve; and a plurality of branch ducts branching from the central duct to a branch connector. The branch duct comprises a closable branch valve, wherein at least one branch duct is positioned between the inlet and the central duct valve and wherein at least one branch duct is positioned between the outlet and the central duct valve. The device is arranged for carrying out single-column and (continuous) multicolumn chromatographic separations. This allows the purification of biopharmaceutical products without having to develop, demonstrate and validate cleaning procedures for the valves. | 09-03-2009 |
20090230060 | PISTON POSITION DETECTION FOR PREPARATIVE CHROMATOGRAPHY COLUMN - In an axial-flow cylindrical preparative chromatography column that utilizes a piston to close off the top of the resin space inside the column and thereby eliminate void spaces at the top of the resin, one or more proximity detectors are incorporated in the piston head to either generate a signal indicating the proximity of the piston had to the resin, or to collect a signal, such as a optical signal, emitted from the resin. The value of the signal or any change in the signal is compared to a threshold value to ascertain when the piston head is in proximity to the resin so that the motion of the piston toward the resin can be halted before contact pressure from the piston head damages the resin. | 09-17-2009 |
20090277838 | Functionalized substrates with ion-exchange properties - The current invention provides compositions, which are useful as stationary phases for a variety of chromatographic applications, such as high performance liquid chromatography (HPLC) and solid-phase extraction (SPE). The compositions include a porous solid support (e.g., silica gels, silica monoliths or synthetic organic resins) having an exterior surface and pore openings defined by “interior walls”. To the solid support are covalently bound organic ion-exchange ligands (e.g., silyl ligands), which incorporate at least one ion-exchange group (e.g., ionic or ionizable group). The compositions further include micro-particles (e.g., latex particles) incorporating ion-exchange groups having a charge that is opposite to the charge found on the support. The micro-particles are bound to the exterior surface of the support (e.g., via electrostatic forces). The micro-particles have a size that is sufficient to minimize the number of particles that can enter the pores of the support thereby reducing or essentially preventing binding of the micro-particles to the interior walls of the pores. While the pores are essentially too small for the micro-particles, they can still be accessed by the analytes present in a chromatographic sample. The physical separation of ion-exchange groups located within the pores and the surface of the micro-particles, respectively, prevents reactions (e.g., formation of salt-bridges) between the oppositely charged groups and provides compositions with both anion-exchange and cation-exchange capabilities within the same stationary phase. The ligands bound to the solid support can optionally include additional (e.g., reverse-phase) functionalities creating multi-modal (e.g., trimodal) stationary phases. | 11-12-2009 |
20090277839 | POROUS COMPOSITE PARTICULATE MATERIALS, METHODS OF MAKING AND USING SAME, AND RELATED APPARATUSES - In an embodiment, a porous composite particulate material includes a plurality of composite particles. Each composite particle includes an acid-base-resistant core particle at least partially surrounded by one or more layers of acid-base-resistant shell particles. The shell particles are adhered to the core particle by a polymeric layer. The shell particles and/or core particles may be made from an acid-base-resistant material that is stable in harsh chemical conditions. For example, the shell particles and/or core particles may be made from diamond, graphitic carbon, silicon carbide, boron nitride, tungsten carbide, combinations of the foregoing, or other acid-base-resistant materials. The porous composite particulate materials disclosed herein and related methods and devices may be used in separation technologies, including, but not limited to, chromatography, and solid phase extraction. | 11-12-2009 |
20090294362 | STATIONARY PHASE FOR HYDROPHILIC INTERACTION CHROMATOGRAPHY - The present invention relates to the use of a stationary phase with neutral hydrophilic endgroups like sugar residues or polyole residues as sorbent for Hydrophilic interaction chromatography. | 12-03-2009 |
20090294363 | METHODS AND APPARATUS FOR GENERATING SOLVENT GRADIENTS IN LIQUID CHROMATOGRAPHY - Embodiments of the present invention feature methods and apparatus for performing chromatographic separations. The invention feature methods and control means in the form of computer programs and software that control the formation of a concentration gradient at two or more total flow rates, with an elution period occurring in a slow flow rate and at least other portions of the gradient occurring during a fast total flow rate. | 12-03-2009 |
20090294364 | METHOD FOR THE PRODUCTION OF CHEMICAL AND PHARMACEUTICAL PRODUCTS WITH INTEGRATED MULTICOLUMN CHROMATOGRAPHY - The invention relates to a chromatographic process for substance separation in the context of the preparation of chemicals such as, for example, chiral pharmaceuticals, isomers or biomolecules on the small-scale and production scale, based on Simulated Moving Bed (SMB=countercurrent chromatography) technology. | 12-03-2009 |
20090308811 | CHROMATOGRAPHY DEVICE - A chromatography device and method of use to separate components of a sample are described. The device includes a stationary phase supported by a frame or contained within a chamber in a housing. The stationary phase includes a nano alumina medium that has support fibers having nano alumina fibers attached thereto. Optionally, sorbents are electrostatically adhered to the nano alumina fibers. Chromatographic separations are effected by the mobile phase at pressures of less than 10 bar and at flow velocities up to at least 5 cm/min. An electrical potential can be applied across the medium to foster separation of components. | 12-17-2009 |
20090314716 | PREPARATIVE LIQUID CHROMATOGRAPH SYSTEM AND PREPARATIVE SEPARATION/PURIFICATION METHOD USING THE SAME - A technique for extracting an objective component from a sample solution and obtaining the component in the form of equally separated powder aliquots is provided. A peak detector | 12-24-2009 |
20090321356 | CERAMIC-BASED CHROMATOGRAPHY APPARATUS AND METHODS FOR MAKING SAME - A high-performance liquid-chromatography apparatus includes a substrate that defines a separation column in fluidic communication with an inlet port of the processing unit. The processing unit is formed of sintered inorganic particles. The apparatus also includes a pump that delivers a solvent to the inlet port at a pressure sufficient for high-performance liquid-chromatography. | 12-31-2009 |
20090321357 | Affinity Particle And Affinity Separation Method - The present invention is affinity particles that are characterized by having phosphorylcholine groups represented by the following formula (1) covalently bonded onto the surface of inorganic powder and also by having ligands having specific affinity with a certain target substance covalently bonded or adsorbed onto the surface of inorganic powder. | 12-31-2009 |
20090321358 | Affinity Particle And Method Of Affinity Separation - The present invention is affinity particles that are characterized by having phosphorylcholine groups represented by the following formula (1) covalently bonded onto the surface of organic particles and also by having ligands having specific affinity with a certain target substance covalently bonded or adsorbed onto the surface of organic particles. | 12-31-2009 |
20100025331 | CASING FOR MONOLITHIC CHROMATOGRAPHY COLUMNS - The present invention relates to improved casings of monolithic chromatography columns, and to the production and use thereof. The chromatography columns provided with these novel casings consisting of PPS and carbon fibres have both improved long-term stabilities to a very wide variety of solvents and pressure and also permanently improved separation properties. | 02-04-2010 |
20100051554 | MOLECULAR BASKET COATED MICRO PARTICLES - Micro particulate compositions include molecular baskets deposited on the surface and impregnated within pores of micro particles. They may be used to detect and/or separate a target material in a sample. Molecular baskets include a molecular framework defining an exterior region and an interior target receiving region. Micro particles may have a high total surface area provided by external surfaces and internal pore surfaces. Micro particulate compositions are manufactured by dispersing molecular baskets onto outer surfaces and within internal pores of porous microparticles (e.g., as a solution or suspension within a solvent). Analytical devices for detection and/or separation of target materials in samples include a micro particulate composition configured to facilitate contact between the micro particulate composition and a sample. | 03-04-2010 |
20100059442 | METHOD AND SYSTEM FOR SEPARATING ANALYTES - A method and device for performing chromatography includes placing a monolithic polymer layer in contact with a liquid mobile phase. The monolithic polymer layer may be neutral, positively charged, or negatively charged. A first electrode and second electrode are coupled to the monolithic polymer layer. An electrical potential is created between the first electrode and the second electrode. In some embodiments, the monolithic polymer layer may be placed in a sealed chamber, which may have a pressure greater than atmospheric pressure. Additionally, in some embodiments, the mobile phase is advanced through the monolithic polymer layer via one of a number of forced flow techniques. | 03-11-2010 |
20100059443 | Chromatography Membranes, Devices Containing Them, and Methods of Use Thereof - Described herein are fluid treatment devices for use in tangential flow filtration, comprising a housing unit and a composite material, wherein the composite material comprises: a support member comprising a plurality of pores extending through the support member; and a non-self-supporting macroporous cross-linked gel comprising macropores having an average size of 10 nm to 3000 nm, said macroporous gel being located in the pores of the support member. The invention also relates to a method of separating a substance from a fluid, comprising the step of placing the fluid in contact with an inventive device, thereby adsorbing or absorbing the substance to the composite material contained therein. | 03-11-2010 |
20100065499 | COMPOSITE MATERIAL - The invention describes a composite microfibre, which is comprising a polysaccharide polymer selected from the group consisting of cellulose, hydroxyethyl cellulose, hydroxypropyl cellulose, methyl cellulose, ethyl cellulose, n-propyl cellulose, isopropyl cellulose, cellulose acetate and combinations of two or more of these substances, and combinations of two or more of these substances, thereby the polysaccharide polymer further comprising substituents comprising a given formula, wherein k is 1 or greater, and wherein each moiety R | 03-18-2010 |
20100065500 | SUPER-MACROPOROUS POLYMERIC MICROSPHERES AND PREPARATION METHOD THEREOF - The invention provides a preparation method of super-macroporous polymeric microspheres and a product thereof. The method is characterized in that adding high content of surfactant into an oil phase containing a monomer and dispersing the oil phase containing the monomer and the surfactant into an aqueous phase. Super-macroporous microspheres are obtained by means of suspension polymerization. In the interior of the microspheres, 10-60% of the pores are distributed in a range of 500-900 nm. The microspheres have a particle diameter of 1-200 μm and a porosity of 30%-90%. The product is suitable for being used as a stationary phase matrix in liquid chromatography, a carrier for high performance catalysts and a high performance adsorbent, and especially, being used as a separation medium for separating biomacromolecules. | 03-18-2010 |
20100072137 | FUNCTIONALIZED GRAPHITIC STATIONARY PHASE AND METHODS FOR MAKING AND USING SAME - Embodiments disclosed herein include functionalized graphitic stationary phase materials and methods for making and using these materials, including the use of these materials in separation technologies such as, but not limited to, chromatography and solid phase extraction. In an embodiment, a functionalized graphitic stationary phase material may be manufactured from high surface area porous graphitic carbon and a radical forming functionalizing agent. The radical forming functionalizing agent produces an intermediate that forms a covalent bond with the surface of the porous graphitic material and imparts desired properties to the surface of the graphitic carbon. | 03-25-2010 |
20100078387 | Acid Zirconium Phosphate and Alkaline Hydrous Zirconium Oxide Materials For Sorbent Dialysis - A combination of acid zirconium phosphate and alkaline hydrous zirconium oxide are utilized as ion-exchange materials, for example, in sorbent dialysis. The combination provides for dialysate regeneration while maintaining constant and controlled levels of Na | 04-01-2010 |
20100084341 | CHROMATOGRAPHY COLUMN METHOD OF VARIABLE SPEED OPERATION - A chromatography column is normally filled with a slurry of media for operation. A piston normally compacts the slurry in the column. The piston moves through a cavity in communication with both a slurry inlet and slurry ports which are in communication with the interior of the chromatography column. A controller is configured to automatically adjust piston speeds along elevation zones of operation. Furthermore, presetting specific speeds less the maximum speed can be accomplished with the controller. A pressure sensor may also be employed to assist in switching speed of operation of the piston under particular pressure events. | 04-08-2010 |
20100084342 | Method of and device for packing a chromatography column - A method and device for packing a chromatography column formed of one or more vibration devices attached to top and/or bottom flanges of the column. Media is added in one or more steps to the column, allowed to settle under the effects of gravity and then subjected to one or more treatments of vibration from the vibration devices until a suitably packed column is obtained. Liquid used to suspend the media while being placed into the column may be at least partially removed before or during the vibration step(s). The remaining liquid is then removed or replaced after the packing has been obtained. | 04-08-2010 |
20100084343 | SYSTEM AND PROCESS FOR THE REMOVAL OF FLUOROCHEMICALS FROM WATER - Systems and processes for the removal of fluorochemicals from water are provided. Systems according to the invention include a vessel containing the ion exchange resin, the ion exchange resin including an insoluble matrix having functional groups bonded to the matrix, the functional groups being amines of the formula: N(R | 04-08-2010 |
20100084344 | EXPANDED BED COLUMN AND DISPOSABLE CHROMATOGRAPHY - In the field of expanded bed adsorption chromatography, with particular but not exclusive relevance to disposable expanded bed chromatography columns, a method of conducting upward flow expanded bed chromatography comprising: supplying a liquid via an inlet to a stationary phase medium contained in a column, allowing adsorption of at least one component from the liquid by the stationary phase medium, withdrawing the liquid from the column via an outlet, regulating the expansion of the stationary phase medium by regulation of the flow rate of the liquid through at least the inlet, and restricting any overpressure in the headspace of the column to not more than the outside pressure plus 0.1 bar, is provided. In addition, apparatus for use in said method, in particular columns for use in expanded bed chromatography, are provided. | 04-08-2010 |
20100084345 | Method for the Manufacture of Agarose Gels - A method for the manufacture of an agarose separation gel: The method is characterized in comprising the steps of: i) providing a solution of agar, and ii) one, two or more substeps (ii.A, ii.B, ii.C etc) which each comprises desulphating thereby transforming agar to agarose having a degree of substitution of sulphate groups that is at most 75% of the degree of substitution of sulphate groups in native agar, iii) gelling the dissolved agar prior to step (ii) and/or securing so that the desulphated agar is in g form at least after one or more of the substeps of step (ii), and imperatively after step (ii). An agarose separation gel that exhibits a. a plurality of methoxy groups each of which are at the same position as in native agar and with a degree of substitution in the range of 1-100% of the degree of substitution of native agar, and b. sulphate groups with a degree of substitution which is <75% of the degree of substitution for sulphate groups in native agar. | 04-08-2010 |
20100089831 | PREPARATION AND USE OF CHIRAL ZEOLITES FOR LIQUID CHROMATOGRAPHY - The present invention relates to the preparation of chiral zeolites and their use in liquid chromatography. The zeolite material may be used in the chromatographic separation of mixtures of components, such as the separation of enantiomers. | 04-15-2010 |
20100089832 | MODIFIED DIAMOND PARTICLE SURFACES AND METHOD - A method for preparing modified diamond particles for use in chromatography where hydroxyl groups at the diamond surfaces are reacted with a reactive molecule to introduce a desired functional group at the diamond surface. | 04-15-2010 |
20100116743 | SILICA PARTICLES AND METHODS OF MAKING AND USING THE SAME - Silica particles and compositions containing silica particles are disclosed. Methods of making silica particles and methods of using silica particles are also disclosed. | 05-13-2010 |
20100140172 | Optical-Isomer-Separating Agent - According to the present invention, there is provided an enantiomeric isomer separating agent, which includes a polysaccharide derivative supported by particles of a support by chemical bonding, and has a concentration of eluted component (in terms of mass proportion) as determined through a liquid passing test under the following conditions of 20 ppm or lower: (liquid passing test) (1) the enantiomeric isomer separating agent is packed into a column having a diameter of 1 cm and a length of 25 cm by a slurry method, (2) an organic solvent in which the polysaccharide derivative is soluble is used as a solvent, and passing of this solvent whose temperature is set at 40° C. is initiated at a flow rate of 8 ml/min, (3) collection of the solvent passed is initiated 1 hour after the initiation of the liquid passing, the solvent is collected for 1 hour (480 ml), and a mass (M | 06-10-2010 |
20100140173 | Method and Device for Gravity Flow Chromatography - The invention provides gravity chromatographic columns for the automated purification of a material (e.g., a biological macromolecule, such as a peptide, protein or nucleic acid) from a sample solution, as well as methods for making and using such columns. The columns typically include a bed of media positioned above a bottom frit or between a bottom and top frit. In some embodiments, the columns employ modified pipette tips as column bodies. In some embodiments, the columns employ modified plates or racks as column bodies. In some embodiments, the invention provides methods and devices for gel filtration, desalting, buffer exchange, ion exchange, ion-pairing, normal phase and reverse phase chromatography. In some embodiments, the invention provides multiplexing gravity flow chromatography on a liquid handling robotic system. | 06-10-2010 |
20100140174 | SUPPORTING STRUCTURES FOR PREPARATIVE CHROMATOGRAPHY COLUMNS - The plunger used as the upper enclosure in a preparative chromatography column is suspended by one or more rods that are supported by a frame through coupling connections on the frame that can fix the position of the rod(s) relative to the frame, while the position of the rod(s) is controlled by a motorized drive system that is suspended above the column. The drive system is mounted either to the column lid or to a functional plate positioned a short distance above the column lid. These constructions allow the plunger to be raised and lowered so that the column and its parts can be exchanged, all without the need for a hoist or crane. | 06-10-2010 |
20100163490 | MODULAR CHROMATOGRAPHY DEVICE - The subject of the invention is a chromatography device comprising: (i) a unit column intended to receive a chromatographic bed, (ii) a removable reservoir for a bed slurry, and (iii) a base comprising a cylinder adapted to a piston, said piston sliding in the removable reservoir and the column to compress the slurry of solid particles into a chromatographic bed; the column, reservoir and base being connected in series in this order, the piston acting to compress the slurry of solid particles into a chromatographic bed in the column. | 07-01-2010 |
20100170852 | Method and Device for Gravity Flow Chromatography - The invention provides gravity chromatographic columns for the purification of a material (e.g., a biological macromolecule, such as a peptide, protein or nucleic acid) from a sample solution, as well as methods for making and using such columns. The columns typically include a bed of media positioned above a bottom frit or between a bottom and top frit. In some embodiments, the columns employ modified pipette tips as column bodies. In some embodiments, the columns employ modified plates or racks as column bodies. In some embodiments, the invention provides methods and devices for gel filtration, desalting, buffer exchange, ion exchange, ion-pairing, normal phase and reverse phase chromatography. In some embodiments, the invention provides multiplexing gravity flow chromatography on a liquid handling robotic system. | 07-08-2010 |
20100181254 | GRAFT COPOLYMER FOR CATION- EXCHANGE CHROMATOGRAPHY - The invention relates to chromatographic separating materials having improved binding capacity for biological constituents in cell culture supernatants, or animal or human body fluids, in particular for monoclonal antibodies. The present invention likewise relates to the preparation of separating materials of this type, and to the use thereof, in particular for the removal of charged biopolymers from corresponding liquids. | 07-22-2010 |
20100193439 | Quick Disconnect Liquid Chromatograph Columns - A chromatography column comprising a chromatography tube, a piston tube with a porous obstruction that inhibits the movement of particle solids therethrough, and a quick connect/disconnect clamp for use in coupling the chromatography tube to the piston tube. This column is for use in a liquid chromatography process where fluid is pumped under pressure through the chromatography tube which contains a packed particulate solid. The clamp allows for the quick removal and replacement of chromatography tubes when the particulate needs replacement. | 08-05-2010 |
20100193440 | USE OF A CHROMATOGRAPHY SUBSTRATE FOR REDUCING THE AMOUNT OF ADAMTS13 IN A SOLUTION DERIVED FROM PLASMA - An ion-exchange chromatography support for reducing the ADAMTS13 amount present in a plasma-derived solution containing human von Willebrand factor. The support includes a large-pore, vinyl polymer-type resin bearing DEAE groups, and a buffer including trisodium citrate, sodium chloride, calcium chloride, glycine and lysine. | 08-05-2010 |
20100193441 | Chromatography Column With Pack, Unpack, and Clean-In-Place Features - A preparative chromatography column is equipped with one or more valves that can each be used to both inject a column packing into the column or withdraw used packing from the column, in addition to cleaning the supply and discharge lines associated with the valve itself, all by moving a movable plug within the valve body and all without protruding into the column interior. Each valve is mounted on the lateral wall of the column just above the filter plate at the column floor, and the plug is movable between a closed position in which the end surface of the plug is flush with the inner wall of the column and an open position in which the plug is recessed within the bore. Each valve has two additional ports in its valve body, positioned such that when the plug is closed, both ports are open to the valve bore, and when the plug is open, at least one of the ports is open to the bore. The position of the plug within the valve bore determines the valve function. | 08-05-2010 |
20100200507 | Media For Membrane Ion Exchange Chromatography Based On Polymeric Primary Amines, Sorption Device Containing That Media, And Chromatography Scheme And Purification Method Using The Same - Media and devices, such as anion exchangers including such media, wherein the media is a membrane having a surface coated with a polymer such as a polyallylamine. The resulting membrane offers stronger binding of protein impurities and superior removal of host cell proteins from biological samples than conventional ligands based on quaternary ammonium salts, including trimethylammonium ligands. Also described is a chromatography scheme and method for purifying monoclonal antibodies, wherein the anion exchange sorber is placed downstream of an affinity column (such as Protein A or Protein G affinity column) and optionally one or more polishing devices such as cationic exchange columns. Little or no dilution of the cation exchanger pool (or affinity column exchange pool where no cation exchanger is used) is necessary to lower the conductivity of the sample. The sorber functions well to strongly bind host cell proteins and other impurities in biological samples even at high conductivities and pH. | 08-12-2010 |
20100206812 | HIGH EFFICIENCY SEPARATIONS METHOD AND APPARATUS - The invention concerns separation methods and systems comprising a continuous chromatographic simulated moving bed integrated with vapor compression distillation to create a high efficiency separations platform applicable to a broad range of separation functions. | 08-19-2010 |
20100213130 | SEPARATION PROCESS - The present invention relates to a chromatographic separation process for fractionating solutions containing sugars, sugar alcohols, sugar acids and/or betaine by utilizing fractions comprising parts of the separation profile as a substituent of the eluent in a novel and inventive manner. The starting solutions are typically multicomponent plant-based extracts and hydrolysates, stillages, and fermentation products and derivatives thereof. The process prow vides improved separation capacity and separation efficiency without affecting the yield or purity of product components, such as sugars, sugar alcohols, sugar acids, and betaine. The process can especially be applied to sequential SMB separation systems. | 08-26-2010 |
20100213131 | POROUS COMPOSITE PARTICULATE MATERIALS, METHODS OF MAKING AND USING SAME, AND RELATED APPARATUSES - In an embodiment, a porous composite particulate material includes a plurality of composite particles. Each composite particle includes an acid-base-resistant core particle at least partially surrounded by one or more layers of acid-base-resistant shell particles. The shell particles are adhered to the core particle by a polymeric layer. The shell particles and/or core particles may be made from an acid-base-resistant material that is stable in harsh chemical conditions. For example, the shell particles and/or core particles may be made from diamond, graphitic carbon, silicon carbide, boron nitride, tungsten carbide, niobium carbide, zirconia, noble metals, acid-base stable highly cross-linked polymers, acid-base stable at least partially cross-linked polymers, titania, alumina, thoria combinations of the foregoing, or other acid-base-resistant materials. The porous composite particulate materials disclosed herein and related methods and devices may be used in separation technologies, including, but not limited to, chromatography and solid phase extraction. | 08-26-2010 |
20100252502 | HPLC-SYSTEM WITH VARIABLE FLOW RATE - In a high performance liquid chromatography system, wherein a mobile phase is driven through a stationary phase for separating compounds of a sample fluid comprised in the mobile phase, a flow rate of the mobile phase is controlled in dependence on a variation in a control value in the system. | 10-07-2010 |
20100276370 | METHOD FOR CONDUCTING MAINTENANCE ON A CHROMATOGRAPHY COLUMN - The present invention relates to methods for conducting maintenance on chromatography columns used in industrial-scale chromatography. In particular, the invention is concerned with safer methods for performing maintenance on such columns, such as cleaning and replacing bed supports, distributors, nozzles, O-rings and other column components, by the use of a handling device to support, lift, carry and manipulate such column components. | 11-04-2010 |
20100276371 | CHROMATOGRAPHY COLUMN AND METHOD OF MAINTENANCE - A chromatography column and method of maintenance is described which does not require the use of a hoist or crane for disassembly. The method provides improved operator safety by reducing the need for the operator to work below a suspended or supported load within the column. Furthermore, the removal or replacement of column components is facilitated by providing access to the interior of the column and by the provision of a handling device. | 11-04-2010 |
20100300971 | Zwitterionic stationary phase as well as method for using and producing said phase - The present invention relates to a zwitterionic stationary phase comprising a carrier and at least one zwitterionic ligand bound to said carrier, said phase being suitable for HPLC separation in Hydrophilic Interaction mode, wherein the positively charged part of said zwitterionic ligand is located at the end of the ligand, and the negatively charged part of said zwitterionic ligand is located between the positively charged part and the part of said zwitterionic ligand directly binding to said carrier, or a polymeric backbone attached to the carrier, wherein the intramolecular distance between the negatively charged part of the zwitterionic ligand preferably is at most 10 atoms long. The invention also provides methods for producing said zwitterionic stationary phase and method for using the phase in HPLC separations. | 12-02-2010 |
20100300972 | POROUS MATERIALS FOR SOLID PHASE EXTRACTION AND CHROMATOGRAPHY AND PROCESSES FOR PREPARATION AND USE THEREOF - Embodiments of the present invention are directed to porous materials for use in solid phase extractions and chromatography. The materials feature at least one hydrophobic component, at least one hydrophilic component and at least one ion-exchange functional group. The materials exhibit superior wetting and ion-exchange performance. | 12-02-2010 |
20100320149 | SEPARATION MATRIX - The present invention relates to a separation matrix, which comprises a support; extenders coupled to an outer part of said support; and ligands coupled to said extenders, wherein the part of the support to which the extenders are coupled constitutes less than 50% of the volume of the separation matrix. The invention also embraces a method of preparing such a separation matrix, as well as a process wherein the separation media is used. | 12-23-2010 |
20100326918 | MULTI-COLUMN SEQUENCED SEPARATION PROCESS FOR SEPARATING AN IONIC METAL DERIVATIVE - The subject of the present disclosure is a multi-column sequenced separation process and a drive for implementing this process. The disclosure applies particularly to the separation of metal derivatives such as uranium, nickel, copper, cobalt and other precious metals present in leaching effluents in hydrometallurgical processes. | 12-30-2010 |
20100326919 | MONOLITHIC SUPPORTS AND METHODS FOR THEIR PRODUCTION - The present invention provides monolithic supports produced from linear aliphatic polyamides. It also provides a method of producing said monolithic supports by dissolution/precipitation of linear aliphatic polyamides. Finally, the invention provides using said supports in chromatography as well as chromatography columns containing said supports. | 12-30-2010 |
20110006007 | COMPOSITE POLYMERIC FILTRATION MEDIA - Provided are filtration media, matrixes, and systems for liquid purification that utilize functional polymer particles. The functional polymer particles can comprise a cationic charge. Exemplary functional polymer particles comprise comprise [3-(methacryloylamino)propyl]-trimethylammonium chloride (MAPTAC) polymerized with trimethylolpropane trimethacrylate (TMPTMA). | 01-13-2011 |
20110017670 | Silica Particles and Methods of Making and Using the Same - Metal oxide particles and compositions containing silica particles are disclosed. Methods of making silica particles and methods of using metal oxide particles are also disclosed. | 01-27-2011 |
20110024356 | SEPARATION CARTRIDGES AND METHODS FOR FABRICATION AND USE THEREOF - Embodiments of the invention provide separation cartridges, methods for fabricating separation cartridges, and methods for using separation cartridges. One aspect of the invention provides a separation cartridge including a first end, a second end, and one or more sorbents located between the first end and the second ends, the one or more sorbents arranged from the first end to the second end in order of increasing hydrophobicity. Another aspect of the invention provides a method of creating a separation cartridge having varying hydrophobicity. The method includes loading a filtration material and a cross-linking agent into a cylinder and selectively exposing the material to an energy source to selectively initiate a cross-linking reaction within the filtration material. | 02-03-2011 |
20110042317 | Method and Device for Extracting an Analyte - The invention provides extraction columns for the purification of an analyte (e.g., a biological macromolecule, such as a peptide, protein or nucleic acid) from a sample solution, as well as methods for making and using such columns. The columns typically include a bed of extraction media positioned in the column between two frits. In some embodiments, the extraction columns employ modified pipette tips as column bodies. In some embodiments, the invention provides columns characterized by low backpressure. | 02-24-2011 |
20110049056 | COMPOSITE MATERIALS CONTAINING NANOPARTICLES AND THEIR USE IN CHROMATOGRAPHY - Novel porous materials comprising nanoparticles, use in chromatographic separations, processes for its preparation, and separations devices containing the chromatographic material are described by the instant invention. In particular, the disclosure describes porous inorganic/organic hybrid particles embedded with nanoparticles selected from oxides or nitrides of the following: silicon carbide, aluminum, diamond, cerium, carbon black, carbon nanotubes, zirconium, barium, cerium, cobalt, copper, europium, gadolinium, iron, nickel, samarium, silicon, silver, titanium, zinc, boron, and mixtures thereof. | 03-03-2011 |
20110073547 | Ce(IV)-initiated graft polymerisation on polymers containing no hydroxyl groups - The invention relates to a process for the preparation of a separating material having improved binding capacity, and to materials prepared and to the use thereof for the separation of charged or uncharged biopolymers from liquids. | 03-31-2011 |
20110100915 | Packing Material For Hydrophilic Interaction Chromatography - The object of the present invention is to provide a packing material and a separation method that manifest excellent hydrophilic interactions. | 05-05-2011 |
20110120950 | Processing and Analysis Techniques Involving In-Vessel Material Generation - In at least one embodiment, the inventive technology relates to in-vessel generation of a material from a solution of interest as part of a processing and/or analysis operation. Preferred embodiments of the in-vessel material generation (e.g., in-vessel solid material generation) include precipitation; in certain embodiments, analysis and/or processing of the solution of interest may include dissolution of the material, perhaps as part of a successive dissolution protocol using solvents of increasing ability to dissolve. | 05-26-2011 |
20110139717 | MEMBRANES AND ASSOCIATED METHODS FOR PURIFICATION OF ANTIBODIES - The invention relates to a device for separating unwanted compounds from an antibody containing biological sample. The device comprises a porous support and a polymeric resin disposed within the pores of the porous support. The device may further comprise a viral clearance membrane upstream or downstream from the polymeric resin. Methods of use are also provided. | 06-16-2011 |
20110139718 | PISTON MOVEMENT CONTROL FOR PREPARATIVE CHROMATOGRAPHY COLUMN - In an axial-flow preparative chromatography column that contains a piston, commonly termed an adaptor, that is lowered over the top of the resin, the ability to lower the piston in a controlled manner to minimize the chances of damage to the resin is achieved by use of an aperture either in the piston head itself or in a compound bolt that secures the upper column frit to the piston head. The aperture is closed with a removable plug during storage and use of the piston head and column. During packing of the bed, however, the plug is replaced by a graduated rod operating as a dipstick to allow the operator to determine the distance between the bottom face of the piston head and the upper surface of the column packing. | 06-16-2011 |
20110147311 | CHROMATOGRAPHY COLUMN AND MAINTENANCE METHOD - A method of maintenance of a chromatography column is described which does not require the use of a hoist or crane for disassembly. The method provides improved operator safety by reducing the need for the operator to work below a suspended or supported load within the column. The provision of guide elements which can be reversibly attached to the column facilitates removal or insertion of column components. | 06-23-2011 |
20110147312 | Automated System And Method For Monitoring Chromatography Column Performance, And Applications Thereof - The present invention provides automated systems and methods for monitoring column performance in process chromatography, and applications thereof. In an embodiment, column performance is monitored by generating a plurality of process values such as, for example, conductivity values or pH values with a detector during a chromatography step transition between a first mobile phase liquid and a second mobile phase liquid. The process values are transformed to form transformed process values in which noise present in the process values is suppressed. Column performance parameters are calculated based on the transformed process values and displayed during movement of the second mobile phase liquid through the chromatography column. The displayed performance parameters enable an operator to make a determination, for example, regarding the quality of the chromatography column packing and whether to continue the chromatography process or stop the chromatography process until the chromatography column can be repacked or replaced. | 06-23-2011 |
20110155668 | SEPARATION MEDIUM FOR CHROMATOGRAPHY OF VARIOUS BIOMOLECULES - The present invention relates to a separation medium, comprising an inner core of a porous material provided with charged ligands, and an outer lid comprising a porous material provided with charged ligands, wherein the charge of the ligands in the inner core is opposite that of the charge of the ligands in the lid. The present invention also relates to a method for biomolecule separation comprising applying a sample to the above separation medium, wherein large molecules are prevented from entering the medium by charge repulsion from the medium and small molecules are captured in the inner core. | 06-30-2011 |
20110174737 | ION CHROMATOGRAPHY SYSTEMS WITH FLOW-DELAY ELUENT RECYCLE - A chromatographic method including chromatographically separating sample ionic species in an eluent stream, detecting the separated sample ionic species, catalytically combining hydrogen and oxygen gases or catalytically decomposing hydrogen peroxide in a catalytic gas elimination chamber, and recycling the effluent stream from the chamber to the chromatography separation column. The residence time between the detector and the chamber is at least about one minute. Also, flowing the recycle sequentially through two detector effluent flow channels of an electrolytic membrane suppressor. Also, applying heat or UV energy between the detector and the chamber. Also, detecting bubbles after the chamber. Also, a Platinum group metal catalyst and ion exchange medium in the chamber. Apparatus for performing the methods. | 07-21-2011 |
20110180481 | High Pressure Flash Chromatography - A method for separating a sample using high pressure flash chromatography is provided. The method comprises the steps of: i) providing a pressurized vessel containing an adsorption material; ii) pressurizing a compressible fluid, optionally containing a cosolvent, to create a mobile phase; iii) premixing the sample with the mobile phase or optionally placing the sample in the pressurized vessel; iv) eluting the mobile phase through the pressurized vessel, to obtain a separated sample; v) heating the mobile phase containing the separated sample after the mobile phase exits the pressurized vessel to remove the compressible fluid; and iv) collecting the separated sample. The pressurized vessel contains an adsorption material having a particle size of 10-100 microns, and the pressure of the adsorption vessel is held at 50-350 bar during elution. Also provided is an apparatus for carrying out the above method. | 07-28-2011 |
20110192797 | Method and Device for Extracting an Analyte - The invention provides extraction columns for the purification of an analyte (e.g., a biological macromolecule, such as a peptide, protein or nucleic acid) from a sample solution, as well as methods for making and using such columns. The columns typically include a bed of extraction media positioned in the column between two frits. In some embodiments, the extraction columns employ modified pipette tips as column bodies. In some embodiments, the method involves adjusting the head pressure of the column during the process, or otherwise controlling or regulating the head pressure. | 08-11-2011 |
20110198291 | PURIFYING AGENT FOR OILY LIQUID CONTAINING POLYCHLORINATED BIPHENYLS | 08-18-2011 |
20110220575 | NEW CHROMATOGRAPHIC MEDIA BASED ON PHENOXY ALKYL AND ALKOXY-OR PHENOXY-PHENYL ALKYL LIGANDS - A reverse phase chromatographic media selected from media of the formula: | 09-15-2011 |
20110259827 | Device, Apparatus And Method For Performing Separations - Embodiment of the present invention feature a device having a body, a separation media and a frit element. The exterior surface of the body has a first attachment means positioned radially about at least one of the media chamber and the frit section to form a compact assembly. | 10-27-2011 |
20110266225 | CHROMATOGRAPHY LIGAND - The present invention relates to a chromatography ligand defined by the following formula R | 11-03-2011 |
20110272356 | SEPARATION DEVICE HAVING COUPLED SEPARATION DEVICE ELEMENTS - A separation device has a first separation chamber for housing a packing material representing a stationary phase configured for separating compounds of a fluid sample. The separation device comprises a first separation device element and a second separation device element, configured to be coupled together to provide the first separation chamber. Each of the first separation device element and the second separation device element comprises a retaining element configured to retain the packing material within the first separation chamber. The first separation chamber is provided by the first separation device element and the second separation device, with the retaining elements of both the first separation device element and the second separation device closing the first separation chamber. | 11-10-2011 |
20110272357 | APPARATUS AND METHOD FOR MATERIAL SEPARATION - An apparatus for separating or isolating substances in or from a mixture has at least one diffusion-based chromatography matrix and at least one convection-based chromatography matrix. | 11-10-2011 |
20110278228 | APPARATUS, SYSTEM, AND METHOD FOR CHROMATOGRAPHY USING A WATER STATIONARY PHASE - Methods and apparatuses for chromatography are provided, using, for example, water as a stationary phase and carbon dioxide as the mobile phase. | 11-17-2011 |
20110284465 | FUNCTIONALIZED SUBSTRATES WITH AROMATIC STACKING PROPERTIES - The current invention provides compositions, which are useful as stationary phases for a variety of chromatographic applications, such as high performance liquid chromatography (HPLC) and solid-phase extraction (SPE). The compositions provide both strong aromatic and hydrophobic interactions with components of a sample. Moreover, the invention provides compositions of new silanes, their immobilization on a solid substrate, such as silica, to form new stationary phases. | 11-24-2011 |
20110284466 | ROBUST AND LOW BACKPRESSURE ON-COLUMN TUNNELED FRIT FOR NANO-UPLC-MS APPLICATIONS - A durable on-column tunneled frit was developed for use in nanoflow UPLC systems. The frit was tunneled during sol-gel reaction. The tunneled-frit fabrication process is easy and reproducible in terms of back pressure and durability. This design creates low backpressure with high liquid flow, which is suitable for the nanoflowUPLC application. A short packing (2 cm C18 particle) tunneled-frit column was demonstrated to sustain 10,000 psi continuous liquid flow for over one week without any particle leakage or pressure instability. The tunneled-frit was also successfully applied to the fabrication of nanoUPLC trapping and analytical column system. It was demonstrated to have high separation efficiency and sensitivity for the analysis of tryptic peptides as well as improved detection sensitivity for phosphopeptide analysis. | 11-24-2011 |
20110290731 | CARTRIDGE CHANGERS AND METHODS FOR UTILIZING THE SAME - Aspects of the invention provide cartridge changers and methods utilizing the same. One aspect of the invention provides a cartridge changer for a plurality of cartridges. The cartridge changer includes a cartridge holder having a plurality of receptacles each adapted to receive one of the plurality of cartridges and a pair of fittings adapted to releasably engage one of the plurality of cartridges. | 12-01-2011 |
20110315633 | Rotating Valve - Described is a rotary valve including a stator element and a rotor element. The stator element defines a first inlet passage, a second inlet passage, and a first outlet passage, respectively, having a first inlet port, second inlet port and first outlet port in a stator face. The rotor element has a rotor face in contact with the stator face and has a first channel and a second channel formed therein. The rotor element is rotatably movable about a rotational axis to at least a first position and a second position. In the first position, the first inlet port is fluidly coupled to the first outlet passage by the first channel and the second inlet port is fluidly coupled to the first outlet passage by the second channel. In the second position, the first inlet port is fluidly coupled to the first outlet passage by the first and second channels. | 12-29-2011 |
20120006750 | Method of manufacturing substances by supercritical fluid chromatography - Provided is a method of manufacturing target substances with use of supercritical fluid chromatography, by which the following are achieved: solution of a problem at the time of sequential injections of samples containing the target substances; an increase of a treatment amount of separation per unit time; and improvement of efficiency in separation. The method includes the steps of: injecting the sample containing the target substances into a mobile phase; and returning composition of the mobile phase to a pre-change state after changing the composition of the mobile phase. The step of returning the composition of the mobile phase to the pre-change state after changing the composition of the mobile phase is performed during a period of time from detection of a peak of one of the target substances which is eluted latest from a column among the target substances separated by the supercritical fluid chromatography apparatus to injection of the next sample, whereby the problem is solved. | 01-12-2012 |
20120018380 | PREPARATIVE CHROMATOGRAPHY COLUMN AND METHODS - A chromatography column that captures components in a process liquid in a free flow state and allows elution in steps is described. | 01-26-2012 |
20120018381 | Method and Device for Extracting an Analyte - The invention provides extraction columns for the purification of an analyte (e.g., a biological macromolecule, such as a peptide, protein or nucleic acid) from a sample solution, as well as methods for maintaining the columns in a wet state. The columns typically include a bed of extraction media positioned in the column between two frits. In some embodiments, the extraction column body is comprised of a modified pipette tip. | 01-26-2012 |
20120024790 | SEPARATION COLUMN WITH GERMANIA-BASED SOL-GEL STATIONARY PHASE - The present invention provides sol-gel germania-coated chromatography separation columns with improved stability under extreme pHs and high temperatures. Also provided are methods of preparation and uses of the sol-gel germania-coated separation columns of the present invention. | 02-02-2012 |
20120024791 | PROCESS FOR MAKING IMPROVED CHROMATOGRAPHY MEDIA AND METHOD OF USE - The present invention further is directed to the improved process for making by free radical polymerization a monodisperse, macroporous polymeric media with covalently bonded polymer chains. The media can be applied for chromatographic purification, resulting in polymer supports having improved protein binding capacity and resin selectivity, as well as methods relating to making and using the same. | 02-02-2012 |
20120024792 | PROCESS FOR MAKING IMPROVED CHROMATOGRAPHY MEDIA AND METHOD OF USE - The present invention further is directed to the process for making a macroporous polymeric media with covalently bonded quaternary ammonium polymer chains. The media can be applied for chromatographic purification, resulting in porous substrates having improved protein binding capacity and resin selectivity, as well as methods relating to making and using the same. | 02-02-2012 |
20120024793 | ION CHROMATOGRAPHY SYSTEM USING CATALYTIC GAS ELIMINATION - A liquid chromatographic system is provided including catalytically combining hydrogen and oxygen gases in the chromatography eluent stream in a catalytic gas elimination chamber, to form water and thereby reduce the gas content in the eluent stream. Also, a liquid ion chromatographic system in which the effluent from the detector is recycled to a membrane suppressor and then is mixed with a source of eluent for recycle to the chromatographic column. | 02-02-2012 |
20120067823 | LIQUID CHROMATOGRAPHY COMPONENT - The present invention aims to provide a liquid chromatography component including a column and a prefilter, which is hard to cause an increase of supplied liquid pressure even when the measurement of a sample is repeated. The present invention is a liquid chromatography component, which includes: a column with filler particles filled therein; and a prefilter, the filler particles having an average particle size in the range of 2 to 20 μm, the prefilter having a filtering particle size in the range of ⅙ to ⅓ of the average particle size of the filler particles. | 03-22-2012 |
20120074066 | Microchip Capillary Electrophoresis Absent Electrokinetic Injection - Microchip capillary electrophoresis (CE) utilizing a sample injector based on a mechanical valve rather than electrokinetic injection can provide improved sample injections, enhanced capabilities, and can eliminate the need for changing the electric field in the separation channel to induce sample injection. In one instance CE electrodes continuously apply an electric field for CE separation along a separation channel. A sample channel is connected to the separation channel at an intersection and has a sample pressure that is greater than that which is present in the separation channel near the intersection. The sample channel does not have electrodes that apply voltages for electrokinetic injection. A sample injector in the sample channel or at the intersection comprises a mechanical valve to control sample injection from the sample channel to the separation channel. | 03-29-2012 |
20120091063 | METHOD IN A CHROMATOGRAPHY SYSTEM - A method for determining binding capacities of a chromatography column ( | 04-19-2012 |
20120118828 | SYSTEM AND METHOD FOR VARIABLE SPEED FEEDBACK CONTROL CHROMATOGRAPHY LOADING - Disclosed herein is a chromatography system wherein a sensor, for example, a UV sensor, is tied to a continuously variable load pump in a feedback control loop, with an option to divert the feed stream back to the load vessel or reservoir or onto a second chromatography column, the disclosed chromatography system allowing a true feedback control across variable load rates, thereby adjusting chromatographic operating parameters, for example, variable load rates, to process conditions, while maximizing throughput. | 05-17-2012 |
20120125852 | METHOD FOR ANALYZING ACTIVATED POLYETHYLENE GLYCOL COMPOUNDS - A chemical analysis method for the determination of RO(CH | 05-24-2012 |
20120125853 | Method for Collecting Metal - It is an object of the present invention to collect a scarce metal such as iridium from a light-emitting element which is no longer used. A method for collecting a metal is provided in which an organic metal compound which can emit visible light from a triplet excited state at room temperature is heated, or an EL layer of a light-emitting layer containing an organic metal compound which can emit visible light from a triplet excited state at room temperature is dissolved in a solvent to form a solution, and the solution is heated, irradiated with microwaves or treated with acid water. According to the above method, resources of metals such as iridium or platinum, which are scarce metals, can be utilized efficiently. | 05-24-2012 |
20120138537 | METHOD OF WEAK PARTITIONING CHROMATOGRAPHY - This invention relates to methods of using weak partitioning chromatography for the purification of a product from a load fluid containing one or more impurities. Further, the invention relates to methods of weak partitioning chromatography defined by operating conditions which cause a medium to bind least 1 mg of product per mL of medium, or alternatively, defined by a partition coefficient of at least 0.1. | 06-07-2012 |
20120160772 | METHOD FOR THE RECOVERY OF ACIDS FROM HYDROMETALLURGY PROCESS SOLUTIONS - A method for the recovery of acids and other materials from hydrometallurgic process solutions comprising processing said solutions utilizing a simulated moving bed chromatographic method to produce at least two product streams. | 06-28-2012 |
20120205314 | GRADIENT START UP SYSTEM - To provide or maintain pump prime in a liquid chromatographic system when changing solvents or solvent reservoirs or starting up a chromatographic run, first and second solvents are supplied to a mixer through corresponding first and second lines and from the mixer to a chromatographic column. Air in one of the lines is removed by a pump and the line is filled with solvent. | 08-16-2012 |
20120205315 | NANOMETER SIZE CHEMICAL MODIFIED MATERIALS AND USES - There are provided ligand compositions and stationary phases comprising a polyhedral oligomeric silsequioxane moiety. Also provided are chromatographic devices comprising the stationary phases, and methods of making and using the ligands, stationary phases and chromatographic devices of the invention. | 08-16-2012 |
20120205316 | Packing Material For Hydrophilic Interaction Chromatography - The object of the present invention is to provide a packing material and a separation method that manifest excellent hydrophilic interactions. | 08-16-2012 |
20120228227 | CAPILLARY ION CHROMATOGRAPHY - An apparatus for capillary ion chromatography comprising a suppressor comprising flow-through ion exchange packing in a housing and capillary tubing formed of a permselective ion exchange membrane, and at least partially disposed in said ion exchange packing. Also, a recycle conduit for aqueous liquid from the detector to the packing. Further, the capillary tubing may have weakly acidic or weakly basic functional groups. Also, a method for using the apparatus. | 09-13-2012 |
20120241378 | CO2-REMOVAL DEVICE AND METHOD - An electrolytic CO | 09-27-2012 |
20120241379 | CHROMATOGRAPHY COLUMNS, SYSTEMS AND METHODS - The present invention relates to axial flow chromatography columns, methods for separating one or more analytes in a liquid by the use of such columns, and systems employing such columns. The column comprises a first port and a second port, the first port and said second port being at essentially the same level or elevation above the level of the bed space on the chromatography column. | 09-27-2012 |
20120255910 | ION CHROMATOGRAPHY SYSTEM USING CATALYTIC GAS ELIMINATION - A liquid chromatographic system is provided including catalytically combining hydrogen and oxygen gases in the chromatography eluent stream in a catalytic gas elimination chamber, to form water and thereby reduce the gas content in the eluent stream. Also, a liquid ion chromatographic system in which the effluent from the detector is recycled to a membrane suppressor and then is mixed with a source of eluent for recycle to the chromatographic column. | 10-11-2012 |
20120273424 | METHODS OF PURIFYING VIRUSES USING GEL PERMEATION CHROMATOGRAPHY - Provided herein are elution buffers and methods for purifying viruses using gel permeation chromatography. The methods are useful, for example, in increasing recovery of a virus from a gel permeation chromatography column. The buffers for use in the methods include at least one excipient selected from histidine or sucrose, a divalent cation, a non-ionic detergent, and a phosphate buffered saline. | 11-01-2012 |
20120298585 | METHOD AND APPARATUS FOR IMPROVED RESOLUTION CHROMATOGRAPHY - An apparatus and a method are provided for column chromatography which provide improvements in separation resolution and detection sensitivity, comprising a chromatography column, the column having an inlet and an outlet, wherein the outlet is configured to split a flow of eluate as it leaves the column through the outlet into at least two separate portions, wherein the apparatus is configured to separately process the portions, for example to separately detect a portion or separately collect fractions of a portion with improved resolution. A split frit assembly is preferably configured to split the flow of eluate. The portions preferably emanate from different radial regions of the column. An end fitting for the column outlet may be provided having multiple ports to separately convey the portions. | 11-29-2012 |
20130015138 | COMPRESSIBLE LIQUID FLASH CHROMATOGRAPHY - A liquid flash chromatography process and system are disclosed for separating a sample. The process uses a compressible fluid such as liquid carbon dioxide (CO2) in one embodiment. The liquid CO2 forms the mobile phase into which a suitable solvent is be added for conducting the sample separation. In one embodiment, the process includes depressurizing the CO2 by lowering its temperature via cooling to maintain the CO2 in liquid phase through the chromatographic separation column. The CO2 pressure is maintained below 50 bar in some embodiments thereby obviating the need for high pressure pumps and heavily structured process components such as the column and other equipment to contain high pressure. In some embodiments, the liquid phase is cooled from the gas supply vessel through the column to control the CO2 temperature and hence pressure. | 01-17-2013 |
20130020263 | PARALLEL SEPARATION SYSTEM - A method in a separation system ( | 01-24-2013 |
20130026099 | ORGANOSILANES AND SUBSTRATE BONDED WITH SAME - The present invention provides novel silicon compounds, methods for making these novel silicon compounds, compositions comprising these novel silicon compounds attached to substrates, methods for attaching the novel silicon compounds to substrates and methods for using the compositions in a variety of chromatographic applications. | 01-31-2013 |
20130026100 | PARALLEL SEPARATION SYSTEM - A method in a separation system comprising parallel fluid paths each comprising a separation module. | 01-31-2013 |
20130112623 | COMPOSITE MATERIAL - The invention describes a composite microfiber, which is comprising a polysaccharide polymer selected from the group consisting of cellulose, hydroxyethyl cellulose, hydroxypropyl cellulose, methyl cellulose, ethyl cellulose, n-propyl cellulose, isopropyl cellulose, cellulose acetate and combinations of two or more of these substances, and combinations of two or more of these substances, thereby the polysaccharide polymer further comprising substituents comprising a given formula, wherein k is 1 or greater, and wherein each moiety R | 05-09-2013 |
20130112624 | FLUID MIXING IN A DISPOSABLE FLUID PROCESSING SYSTEM - High accuracy mixing of fluids in a disposable fluid processing system with at least two pumps is provided by a method where a calibration fluid volume is pumped through each pump via a flow meter at at least one calibration pump speed while registering the flow rate using data output from the flow meter, a pump calibration function is calculated from the calibration pump speed and flow rate data and two or more operation fluids are mixed to a predetermined mixture ratio and predetermined flow rate by controlling the pump speed of the respective pumps in accordance with the pump calibration functions. | 05-09-2013 |
20130134095 | TWO-DIMENSIONAL LIQUID CHROMATOGRAPHY WITH CONTROL OF INJECTION IN RELATION TO A STATE OF THE SECOND DIMENSION CHROMATOGRAPH - A two-dimensional liquid chromatography in a system ( | 05-30-2013 |
20130134096 | Flash chromatography cartridge - A low pressure liquid chromatographic cartridge is provided having a tubular polymer container adapted to receive a chromatographic packing material. The container has an outlet port located at a downstream end of the container and container threads formed on an upstream end of the container. A polymer cap having cap threads located on the cap threadingly engage the container threads. An inlet port is located on an upstream end of the cap. A resilient fluid tight seal is interposed between the polymer cap and container suitable for use in low pressure liquid chromatography. A locking tab on a skirt of the cap engages a recess on the container when the seal engages the cap and container to lock the cap in position relative to the container. | 05-30-2013 |
20130140237 | METHOD FOR TREATING BLOOD PLASMA INCLUDING A STEP OF WASHING BY MEANS OF DISPERSION - The present invention relates to a method for treating blood plasma including the steps of ethanol precipitation of the plasma or a fraction of plasma, recovering the precipitate, washing said precipitate, recovering a washed plasma paste, and making said washed plasma paste soluble. | 06-06-2013 |
20130140238 | Arrangement of HILIC Chromatography Column and SPE Enrichment Arrangement for Preparing Samples and Analyzing Pesticides - An arrangement for preparing samples and analyzing pesticides in samples contains an HILIC chromatography column with a first pump for a predominately low-water and/or non-polar solvent; and SPE enrichment arrangement; a second chromatography column with a second pump for a predominantly water-rich and/or polar solvent; a detector; and a valve arrangement for controlling the stream of sample and matrix, which valve arrangement is designed in such a way that the sample stream, in a first switching state of the valve arrangement, can be conducted from the HILIC chromatography column to the SPE enrichment arrangement and, in a second switching state, the sample enriched in the SPE enrichment arrangement can be conducted in the opposite direction from the SPE enrichment arrangement through the second chromatography column to the detector. | 06-06-2013 |
20130146542 | Functionalized chromatographic materials and methods of making and using therefor - Methods, compositions, devices and kits having a novel chromatographic material are provided herein for separating and identifying organic molecules and compounds, for example molecules and compounds containing electron rich functional groups such as carbon-carbon double bonds. The methods, compositions, and kits include a metal-thiolate chromatographic medium (MTCM) with a sulfur-containing functional group or a metal-selenolate chromatographic medium (MSCM) comprising a selenium-containing functional group covalently attached to a support medium, such that the sulfur-containing functional group or selenium-containing functional group is bound to at least one metal atom. The MTCM and/or MSCM has affinity and specificity to compounds having one or more carbon-carbon double bonds, and performs a highly efficient and rapid separation of samples yielding non-overlapping peaks of purified materials compared to traditional media. | 06-13-2013 |
20130153499 | SEPARATION MEDIUM FOR CHROMATOGRAPHY OF VARIOUS BIOMOLECULES - The present invention relates to a separation medium, comprising an inner core of a porous material provided with charged ligands, and an outer lid comprising a porous material provided with charged ligands, wherein the charge of the ligands in the inner core is opposite that of the charge of the ligands in the lid. The present invention also relates to a method for biomolecule separation comprising applying a sample to the above separation medium, wherein large molecules are prevented from entering the medium by charge repulsion from the medium and small molecules are captured in the inner core. | 06-20-2013 |
20130175219 | WETTING OF A PLASTIC BED SUPPORT FOR A CHROMATOGRAPHY COLUMN - A method for wetting a plastic bed support for a chromatography column, comprising the steps of providing a plastic bed support with a pore structure comprising air in said pore structure and soaking the plastic bed support in an aqueous solution comprising 0.1-30 wt % of a non-surfactant wetting agent, resulting in the removal of at least about 60% of the air from said pore structure. | 07-11-2013 |
20130180922 | CAPILLARY ION CHROMATOGRAPHY - An apparatus for capillary ion chromatography comprising a suppressor comprising flow-through ion exchange packing in a housing and capillary tubing formed of a permselective ion exchange membrane, and at least partially disposed in said ion exchange packing. Also, a recycle conduit for aqueous liquid from the detector to the packing. Further, the capillary tubing may have weakly acidic or weakly basic functional groups. Also, a method for using the apparatus. | 07-18-2013 |
20130186831 | Collection System For Purification Flowstreams - A collection system for collecting samples from a flowstream ( | 07-25-2013 |
20130186832 | SEPARATING COMPONENTS OF MIXED FLUID USING A FUNCTIONALLY GRADED MATERIAL - A system for separating components of a fluid containing at least a first component and a second component includes a device having an inlet for introducing the fluid into the device, a first outlet for directing the first component of the fluid from the device, and a second outlet for directing the second component of the fluid from the device. A material that has a gradient in properties is located in the device between the inlet and the first and second outlets. The material has a first portion with an affinity for the first fluid component and a second portion with an affinity for the second fluid component. The first portion is positioned with relation to the first outlet such that the first component is directed from said device through the first outlet. The second portion is positioned with relation to the second outlet such that the second component is directed from the device through the second outlet. | 07-25-2013 |
20130186833 | CHROMATOGRAPHY COLUMN AND MAINTENANCE METHOD - A chromatography column and method of maintenance is described which does not require the use of a hoist or crane for disassembly. The method provides improved operator safety by reducing the need for the operator to work below a suspended or supported load within the column. Furthermore, the removal or replacement of column components is facilitated by providing access to the interior of the column and by the provision of a handling device. | 07-25-2013 |
20130186834 | SINGLE USE SLURRYING AND CHROMATOGRAPHY SYSTEMS - Methods and systems for chromatography are disclosed that employ a flexible container configured to fit within a support structure and adapted to receive a filtration or absorptive medium, such as a chromatography resin. The flexible container can include at least one inlet, at least one outlet, and a separation barrier peripherally sealed within the container to separate the container into a resin containing portion and a drainage portion. The barrier can be configured to exclude the resin material from the drainage portion during use while allowing fluids to pass therethrough. The disposable chromatography system can further include one or more agitators disposed within the flexible container and adjustably configured to be raised or lowered in the flexible container. When the agitator is in the raised position, the resin packing material can operate in a settled, packed-bed configuration. Alternatively, the agitator in the lowered position permits the chromatography resin packing material to operate in a mixed, slurry configuration. | 07-25-2013 |
20130199999 | Chromatography Methods - This application discloses, in part, 1) a stationary phase column and compression designs for preparative chromatography, 2) a method of improving performance of silica gel chromatography by controlling the hydration of silica gel and acidifying the mobile phase, and 3) a method of extending the life of a silica gel column packing by cleaning or regenerating the silica gel stationary phase. | 08-08-2013 |
20130220928 | METHOD OF PRE-TREATING AN ADSORBENT FOR A CHROMATOGRAPHIC SEPARATION - A method of treating an adsorbent for a chromatographic separation. The method involves sonicating particles of an inorganic metal oxide having fragile edges in the absence of any alkylating or acylating agent to form smoothened particles of the inorganic metal oxide and washing the smoothened particles of the inorganic metal oxide to remove fine particulate matter to produce a treated adsorbent. The treated adsorbent can be used in a method of isolating a daughter radioisotope from a daughter radioisotope that is produced from the parent radioisotope by radioactive decay. | 08-29-2013 |
20130220929 | DEVICE FOR THE CHROMATOGRAPHIC SEPARATION OF A SUBSTANCE MIXTURE AND USE THEREOF - The invention relates to a multifunctional device and its use for chromatographic separation, in particular for affinity chromatographic separation of a substance mixture, which allows a uniform fluid distribution on the separation medium and a uniform flow through the stationary phase, in that the fluid to be separated is passed through a radial inlet line in the upper partial region of the device to its center, such that the radial inlet line is enlarged in the form of a cupola at the center. | 08-29-2013 |
20130233801 | POROUS SILICON OXYNITRIDE MATERIALS FOR CHROMATOGRAPHIC SEPARATION AND METHOD OF THEIR PREPARATION - Novel material for chromatographic separations, processes for its preparation, and separation devices containing the chromatographic material. In particular, the novel materials are porous silicon oxynitride materials, which desirably can be surface modified and have enhanced stability at high pH. The novel porous silicon oxynitride material may offer efficient chromatographic separations, and hold great promise as packing material for chromatographic separations. | 09-12-2013 |
20130240449 | DEVICE FOR MATERIAL PURIFICATION - Systems and methods for purification of radiotracers and non-radioactive materials produced by both microfluidic, conventional, semi-automated and manual synthesis systems are described herein. | 09-19-2013 |
20130256231 | Device, Apparatus And Method For Performing Separations - Embodiment of the present invention feature a device having a body, a separation media and a frit element. The exterior surface of the body has a first attachment means positioned radially about at least one of the media chamber and the frit section to form a compact assembly. | 10-03-2013 |
20130256232 | ION CHROMATOGRAPHY SYSTEMS WITH FLOW-DELAY ELUENT RECYCLE - A chromatographic method including chromatographically separating sample ionic species in an eluent stream, detecting the separated sample ionic species, catalytically combining hydrogen and oxygen gases or catalytically decomposing hydrogen peroxide in a catalytic gas elimination chamber, and recycling the effluent stream from the chamber to the chromatography separation column. The residence time between the detector and the chamber is at least about one minute. Also, flowing the recycle sequentially through two detector effluent flow channels of an electrolytic membrane suppressor. Also, applying heat or UV energy between the detector and the chamber. Also, detecting bubbles after the chamber. Also, a Platinum group metal catalyst and ion exchange medium in the chamber. Apparatus for performing the methods. | 10-03-2013 |
20130277311 | PROCESS FOR PREPARING CELLULAR INORGANIC MONOLITHIC MATERIALS AND USES OF THESE MATERIALS - A process is provided for preparing an inorganic material in the form of an alveolar monolith of a silica matrix where the monolith includes interconnected macropores. The process includes at least one step of mineralizing an oil-in-water emulsion formed from droplets of an oily phase dispersed in a continuous aqueous phase and in which colloidal solid particles are present at the interface formed between the continuous aqueous phase and the dispersed droplets of oily phase. Such materials obtained according to this process may be used, especially for separative chemistry and filtration, for performing chemical reactions catalysed in heterogeneous phase, as thermal or phonic insulators, or as templates for manufacturing controlled-porosity carbon skeletons. | 10-24-2013 |
20130306563 | CHROMATOGRAPHY COLUMN SUPPORT - Herein is reported the use of a chromatography column support comprising at least one plane of symmetry, one axis of symmetry, at least three legs, at least three straight connectors, whereby the connectors define a plane that is perpendicular to the axis of symmetry of the support, whereby the connectors are connected to each other at the axis of symmetry, whereby each leg is connected to a connector, whereby each leg is perpendicular to the plane defined by the connectors, whereby all legs are on the same side of the plane defined by the connectors for stabilizing the packing of a chromatography column. | 11-21-2013 |
20130313197 | METHOD AND APPARATUS FOR IMPROVED RESOLUTION CHROMATOGRAPHY - An apparatus and a method are provided for column chromatography, which provide improvements in separation resolution and detection sensitivity, comprising a chromatography column having an inlet and an outlet, wherein the inlet is configured to introduce a flow of mobile phase into the column carrying a sample, wherein the inlet is further configured to introduce the flow of mobile phase into the column in at least two separate portions which are independently controllable, and to introduce the portions into different radial regions of the column, such that the portions flow longitudinally through the column in different radial regions. The sample preferably is contained in one of the portions, especially a central portion, in a higher concentration than in the other portion(s). Preferably the flow velocities of the portions are independently controllable. | 11-28-2013 |
20140008300 | SEPARATION PROCESS BY MEANS OF HIGH FLOW CONTINUOUS CHROMATOGRAPHY AND CORRESPONDING DEVICE - A method and device are provided for separating fractions of a mixture that is to be separated by liquid phase chromatography. The method includes the steps of: multiple injections of the mixture to be separated, where the injections are made successively into a chromatography column after time intervals A; multiple decanting operations, wherein the fractions of said column are decanted successively after time intervals A, generating an eluate enriched with the fraction of interest, which is created from at least one of said decanted fractions; multiple injections of the eluate collected in the preceding step, wherein the injections of the eluate are carried out successively after time intervals B into a second chromatography column; and multiple decanting operations, wherein the fractions from said second column are decanted successively after time intervals B. | 01-09-2014 |
20140014585 | CHROMATOGRAPHIC INTERFACE - An apparatus for chromatographic interfacing includes an interfacing unit, a sample acquisition unit, and a sample trapping unit. The interfacing unit includes (i) a chromatographic inflow valve adapted to receive a chromatographic sample separation flow, (ii) a chromatographic outflow valve adapted to allow discharge of the sample separation flow, (iii) a loop expulsion inflow valve adapted to receive an expulsion fluid flow, and (iv) a loop expulsion outflow valve in fluid communication with the loop expulsion inflow valve and adapted to allow discharge of a fluid. The sample acquisition unit includes (i) an inflow selector in selectable fluid communication with the chromatographic inflow valve or the loop expulsion inlet valve, (ii) an outflow selector in fluid communication with the loop expulsion outflow valve, and (iii) one or more collection loops, each loop being independently selectable to establish fluid communication between the inflow selector valve and the outflow selector valve. The sample trapping unit includes (i) a trap in selectable fluid communication with the loop expulsion outflow valve and defining a flow path from a first port to a second port and through a stationary phase disposed therebetween, the stationary phase adapted to trap an analyte of interest from a fraction of the chromatographic sample separation flow, and (ii) a scavenging gas source in selectable fluid communication with the flow path and a vacuum source in selectable fluid communication with the flow path, the scavenging gas source and vacuum source adapted to substantially dry the stationary phase. | 01-16-2014 |
20140021136 | CHROMATOGRAPHIC SEPARATION MATERIAL - The chromatographic separation material is a cyclofructan or a derivative of cyclofructan covalently bonded to a cross-linked, organic polymer. The separation material works well in hydrophilic interaction liquid chromatography. | 01-23-2014 |
20140069870 | GLYCIDOL FUNCTIONALIZED ANION EXCHANGE STATIONARY PHASES - Treatment of anion exchange materials containing hydroxyl containing moieties in the beta position relative to the quaternary center in the hydroxide form with glycidol substantially alters the selectivity of the anion exchange material. Furthermore, sequential treatments of first a hydroxide containing solution to put the anion exchange material in the hydroxide form followed by treatment with glycidol in an alternating sequence progressively changes selectivity in a predictable manner allowing facile manipulation of selectivity. Unique to the selectivities achievable with this chemistry is the ability to reverse the elution order of sulfate and carbonate. With all other known systems, carbonate elutes ahead of sulfate and sometimes compromises the ability to quantitate sulfate. With glycidol treatment, carbonate can be moved after sulfate which eliminates interference issues for samples containing significantly more carbonate than sulfate. This modification is useful for columns operated with a hydroxide or carbonate eluent system. | 03-13-2014 |
20140083946 | HYDROLYTICALLY STABLE ION-EXCHANGE STATIONARY PHASES AND USES THEREOF - The invention provides novel ion-exchange media and related methods for their preparation and use. Ion-exchange stationary phases according to the invention are suitable for chromatographic separation of a variety of biomolecules. Distinguishing characteristics of ion-exchange media according to this invention includes, for example, their ability to separate variants of monoclonal antibodies via cation-exchange liquid chromatography using porous substrates with particle sizes <5 μm. The ion-exchange stationary media include a hydrolytically stable layer, which inhibits surface degradation of the particles in 100% aqueous media. Another unique feature is low molecular weight building blocks used to functionalize the particles with ion-exchange groups. | 03-27-2014 |
20140097139 | SOLID PHASE EXTRACTION DISK HOLDER APPARATUS - Solid phase extraction (SPE) disks provide the greatest extraction efficiency when the maximum surface area of the disk is exposed to the sample. Such may be accomplished with the present disclosure wherein an SPE disk is secured within a cavity of a disk holder apparatus such that the SPE disk compresses against a side wall defining the cavity and forms a seal therebetween. The disk holder apparatus may be used in an open design for vacuum applications, or in a sealed design with a closure, when using positive pressure to force the sample through the disk. Examples of various configurations for the disk holder apparatus and methods of use are provided. | 04-10-2014 |
20140110343 | ISOLATION OF INTERFACIAL MATERIAL FROM ORGANIC MATRICES - A method for preparing a crude oil solution for analysis, including adding water to a porous adsorbent to obtain a supported water substrate, having a plurality of water monolayers disposed on the porous adsorbent. The method further includes exposing the crude oil solution to the supported water substrate for a period of time; separating the supported water substrate from the crude oil solution; washing the supported water substrate with a water immiscible solvent to remove at least one hydrocarbon; displacing water from the plurality of water monolayers and the at least one interfacially active compound from the porous adsorbent with an alcohol and a co-solvent to obtain a displaced phase. The displaced phase can include the water, the at least one interfacially active compound, the alcohol, and the co-solvent. Finally, the method can include drying the displaced phase to isolate the at least one interfacially active compound. | 04-24-2014 |
20140124444 | SINTERED METAL FIBER DISKS FOR CHROMATOGRAPHIC APPLICATIONS - A chromatography column has an upstream frit made of non-woven, metal fibers sintered to form a depth filter having graded interstitial passages increasing in size in the direction of flow through the column during use. The frit is held in the column or in a recess of an end fitting, insert or PEEK holder. An annular PEEK ring seals at least one face of the frit at a peripheral edge of the frit, and preferably seals both faces at that edge. | 05-08-2014 |
20140124445 | TEMPERATURE-RESPONSIVE MONOLITHIC POROUS BODY, METHOD FOR PRODUCING SAME, AND TEMPERATURE-RESPONSIVE CHROMATOGRAPHY METHOD USING SAME - A temperature responsive monolithic porous material is obtained that comprises a polymer having a hydration ability that changes in a temperature range of 0 to 80° C. and being immobilized to a surface of the porous material at a high density by binding an atom transfer radical polymerization initiator to a surface of the porous material, and inducing a growth reaction of a polymer, having a hydration ability that changes in a temperature range of 0 to 80° C., from the initiator using an atom transfer radical process under a presence of a catalyst. | 05-08-2014 |
20140124446 | METHOD FOR SEPARATING SUBSTANCE ACCOMMODATED IN VESSEL - Provided is a method capable of reliably separating part (e.g., a collection liquid) of an accommodated substance (e.g., a manipulation medium for performing physical, chemical, and/or biochemical treatment and a collection liquid containing a target substance) accommodated in the same space of a vessel-shaped structure only by simple mechanical operation without any contact with an outside atmosphere. A method for separating a vessel-shaped structure comprising subjecting a vessel-shaped structure | 05-08-2014 |
20140166581 | POROUS HYBRID MONOLITH MATERIALS WITH ORGANIC GROUPS REMOVED FROM THE SURFACE - A material for chromatographic separations, processes for its preparation, and separation devices containing the chromatographic material. In particular, porous inorganic/organic hybrid monoliths are provided with a decreased concentration of surface organic groups, and have improved pH stability, improved chromatographic separation performance, and improved packed bed stability. These monoliths may be surface modified resulting in higher bonded phase surface concentrations and have enhanced stability at low pH. | 06-19-2014 |
20140183136 | GRAFT COPOLYMER FOR CATION-EXCHANGE CHROMATOGRAPHY - The invention relates to chromatographic separating materials having improved binding capacity for biological constituents in cell culture supernatants, or animal or human body fluids, in particular for monoclonal antibodies. The present invention likewise relates to the preparation of separating materials of this type, and to the use thereof, in particular for the removal of charged biopolymers from corresponding liquids. | 07-03-2014 |
20140183137 | DRIFTING TWO-DIMENSIONAL SEPARATION WITH ADAPTION OF SECOND DIMENSION GRADIENT TO ACTUAL FIRST DIMENSION CONDITION - A control device for a sample separation apparatus, the sample separation apparatus including a first separation unit and a second separation unit downstream of the first separation unit and supplied with the fluidic sample after treatment by the first separation unit. A control device is configured for controlling the first separation unit to execute a primary separation sequence within a time interval for separating the fluidic sample into fractions, and for controlling the second separation unit to execute secondary separation sequences within the time interval for further separating the separated fractions into sub-fractions, wherein the secondary separation sequences form part of a common sample separation method defined by a common specification of the sample separation involving a set of parameters, and adjusting, over a progress of the primary separation sequence, at least one parameter according to which at least one of the plurality of secondary separation sequences is executed. | 07-03-2014 |
20140190890 | COLLECTION SYSTEM FOR PURIFICATION FLOWSTREAMS - A collection system for collecting samples from a flowstream ( | 07-10-2014 |
20140217031 | METHODS AND DEVICES FOR OPEN-BED ATMOSPHERIC COLLECTION FOR SUPERCRITICAL FLUID CHROMATOGRAPHY - A supercritical fluid chromatography system comprises a first pump for pumping a first flow stream comprising a compressible fluid and a second pump for pumping a second flow stream comprising a modifier fluid. The second pump is in parallel with the first pump. A column is located in a combined flow stream. The column is located downstream of the first and second pumps. The combined flow stream comprises the first flow stream, the second flow stream, and a sample. A detector is located downstream of the column. A gas-liquid separator is located downstream of the detector. The gas-liquid separator is configured to vent a majority of the compressible fluid while maintaining a majority of the sample, thus preventing aerosolization of the flow stream and minimizing sample loss as well as cross contamination. An open bed collector is located after the gas-liquid separator. | 08-07-2014 |
20140231352 | SILICA PARTICLES COATED WITH BETA-CYCLODEXTRIN FOR THE REMOVAL OF EMERGING CONTAMINANTS FROM WASTEWATER - Provided is a silica particle coated with β-cyclodextrin, wherein said cyclodextrin is attached to said silica particle via at least one crosslinking agent and/or at least one copolymer. Also provided are methods of removing contaminants from a flowing or stationary liquid phase comprising the step of contacting said liquid phase with the silica particle coated with β-cyclodextrin. | 08-21-2014 |
20140251911 | METHOD AND APPARATUS FOR CHROMATOGRAPHIC PURIFICATION - The present invention relates to a method and an apparatus suitable for a continuous chromatography process which only needs three separation columns. The process is a two step procedure comprising two chromatographic steps. The first chromatographic step (capture) is performed alternating and sequentially on two separation columns, the second chromatographic step (polishing) is performed, also sequentially, on the third column. | 09-11-2014 |
20140251912 | Methods and Controllers for Simulated Moving Bed Chromatography for Multicomponent Separation - A method of separating a feed mixture in a simulated moving bed includes flowing fluid in a first flow configuration comprising: supplying the feed mixture downstream of a valve in a shut off position that stops fluid flow to a first column, removing a raffinate stream component, and supplying a remaining fluid flow to a second column; supplying a desorbent to a third column and removing an extract stream downstream; and passing a remaining liquid flow through a fourth column, and removing an intermediate stream. The method includes flowing fluid in a second flow configuration in which the valve is in a position that permits fluid flow to the first column, and supplying a desorbent and removing an extract stream downstream from the column to which the desorbent is supplied; and removing a raffinate stream. The method includes flowing fluid in a third flow configuration in which the liquid flows through the first, second, third and fourth columns in an absence of a supply of additional feed mixture and an absence of a supply of additional desorbent to the liquid flow. | 09-11-2014 |
20140284277 | PROCESSING BIOMASS MATERIALS - Biomass (e.g., plant biomass, animal biomass, and municipal waste biomass) is processed to produce useful intermediates and products, such as energy, fuels, foods or materials. For example, equipment, systems and methods are described that can be used to treat feedstock materials, such as cellulosic and/or lignocellulosic materials. Process streams can be upgraded, e.g., by removing undesired components utilizing simulated moving bed systems such as simulated moving bed chromatography, improved simulated moving bed chromatography, sequential simulated moving bed chromatography and/or related systems. | 09-25-2014 |
20140284278 | CATIONIC DISPLACER MOLECULES FOR HYDROPHOBIC DISPLACEMENT CHROMATOGRAPHY - A process for separating organic compounds from a mixture by reverse-phase displacement chromatography, including providing a hydrophobic stationary phase; applying to the hydrophobic stationary phase a mixture comprising organic compounds to be separated; displacing the organic compounds from the hydrophobic stationary phase by applying thereto an aqueous composition comprising a non-surface active hydrophobic cationic displacer molecule and about 10 wt % or less of an organic solvent; and collecting a plurality of fractions eluted from the hydrophobic stationary phase containing the separated organic compounds; in which the non-surface active hydrophobic cationic displacer molecule comprises a hydrophobic cation and a counterion, CI, having the general formula A or B, as defined in the disclosure: | 09-25-2014 |
20140299547 | CHROMATOGRAPHIC PURIFICATION METHOD - A chromatographic purification method for the isolation of a desired product fraction from a mixture using 2 chromatographic columns, comprises, within one cycle to be carried out at least once, the following steps: a first batch step, wherein said columns are disconnected and a first column is loaded with feed and its outlet is directed to waste, and from a second column desired product is recovered and subsequently the second column is regenerated; a first interconnected step, wherein the outlet of the first column is connected to the inlet of the second column, the first column is loaded beyond its dynamic breakthrough capacity with feed, and the outlet of the second column is directed to waste, a second batch step analogous to the first batch step but with exchanged columns; and a second interconnected step, analogous to the first interconnected step but with exchanged columns. | 10-09-2014 |
20140311983 | COMPOSITE MATERIAL FOR CHROMATOGRAPHIC APPLICATIONS - The present application pertains to a composite material for chromatographic applications and a method for the preparation of the composite material. | 10-23-2014 |
20140311984 | POLYSACCHARIDE MONOLITHIC STRUCTURE AND MANUFACTURING METHOD THEREFOR - A problem is to provide a monolithic structure that is a porous body formed of a polysaccharide being a naturally-occurring polymer, and has continuous pores having an average pore diameter suitable for biomolecule separation to allow formation into an arbitrary shape, and a manufacturing method therefor. A solution is to manufacture the polysaccharide monolithic structure by a method including a first step for dissolving a polysaccharide into a mixed solvent including a solvent into which the polysaccharide is soluble and a solvent into which the polysaccharide is insoluble, at a temperature lower than a boiling point of the mixed solvent, to give a polysaccharide solution, and a second step for cooling the polysaccharide solution to give the polysaccharide monolithic structure. The polysaccharide monolithic structure obtained is a porous body having continuous pores having an average pore diameter of 0.01 to 20 micrometers and a thickness of 100 micrometers or more. | 10-23-2014 |
20140319057 | CHROMATOGRAPHIC MATERIALS FOR THE SEPARATION OF UNSATURATED MOLECULES - The present disclosure relates to a method of separating a compound of interest, particularly unsaturated compound(s) of interest, from a mixture. The compound is separated using a column having a chromatographic stationary phase material for various different modes of chromatography containing a first substituent and a second substituent. The first substituent minimizes compound retention variation over time under chromatographic conditions. The second substituent chromatographically and selectively retains the compound by incorporating one or more aromatic, polyaromatic, heterocyclic aromatic, or polyheterocyclic aromatic hydrocarbon groups, each group being optionally substituted with an aliphatic group. | 10-30-2014 |
20140326670 | METHODS AND APPARATUS FOR TIME-PULSED CHROMATOGRAPHY - The present disclosure relates to methods for the chromatographic separation of two or more sample components using a column while applying a time-pulsed pressure differential to the column and to apparatus for use in the same. | 11-06-2014 |
20140339170 | Stackable Planar Adsorptive Devices - Adsorptive bed devices include a scaffold in housing having a stress absorbing rigid structure and open cells filled with adsorptive beads. The scaffold restricts movement of the plurality of adsorptive beads, absorbs compressive stress induced by a hydraulic pressure gradient along a direction of liquid flow and transfers a portion of the induced compressive stress to the housing. In one embodiment the adsorptive bed in packed into a chromatography column, and in another embodiment the adsorptive bed is sealed in a monolithic block. | 11-20-2014 |
20140353255 | POROUS COMPOSITE PARTICULATE MATERIALS, METHODS OF MAKING AND USING SAME, AND RELATED APPARATUSES - In an embodiment, a porous composite particulate material includes a plurality of composite particles. Each composite particle includes an acid-base-resistant core particle at least partially surrounded by one or more layers of acid-base-resistant shell particles. The shell particles are adhered to the core particle by a polymeric layer. The shell particles and/or core particles may be made from an acid-base-resistant material that is stable in harsh chemical conditions. For example, the shell particles may be made from diamond, graphitic carbon, silicon carbide, boron nitride, tungsten carbide, niobium carbide, zirconia, noble metals, combinations of the foregoing, or other acid-base-resistant materials and the core particle may include at least one exterior layer of non-diamond carbon. The porous composite particulate materials disclosed herein and related methods and devices may be used in separation technologies, including, but not limited to, chromatography and solid phase extraction. | 12-04-2014 |
20140367338 | Chromatography Media and Devices - Chromatography devices contain chromatography media and methods of making and methods of using chromatography devices. Chromatography devices enable a more efficient, productive and/or environmentally friendly chromatographic operation due to one or more of the following advantages over conventional chromatographic operations: elimination of a device packing step by the user; elimination of clean-in-place (CIP) steps; elimination of clean-in-place (CIP) steps utilizing sodium hydroxide solution; elimination of any validation steps by the user; and use of a chromatography device comprising biodegradable material. The chromatography media includes porous inorganic particles having a functionalized surface and having a median pore size of at least about 300 Angstroms (A), or at least about 300 A up to about 3000 A. The inorganic particles may have a BET surface area of at least about 20 m2/g, or at least about 25 m2/g, or about 30 m2/g, up to about 2000 m2/g. | 12-18-2014 |
20150027953 | APPLICATION OF MACROPOROUS SILICA SYNTHESIZED BY A SALT-TEMPLATED AEROSOL METHOD FOR CHROMATOGRAPHY - The present invention discloses a silica particle having a diameter less than or equal to 2 μη, wherein the particle is spherical and comprises interconnected pores having a diameter in the range from 50 nm to 300 nm. The silica particle is preferably produced by spray pyrolysis (=spray drying) of a silica colloid. In the production process, porosity is introduced by means of an inorganic salt, such as NaCl, KCI, LiCl, NaNO3 or Ll NO3, which serves as a pore template. The silica particle may further be functionalized with proteins, peptides, nucleic acids, polysaccharides and proteoglycans, preferably concanavalin A or avidin. The present invention further discloses the use of the silica particle in chromatography, in particular in affinity chromatography. | 01-29-2015 |
20150041396 | SYSTEM AND METHOD OF PRECONCENTRATING ANALYTES IN A MICROFLUIDIC DEVICE - A method and system for preconcentrating analytes at a microvalve in a microfluidic device is disclosed. The system includes a sample channel loaded with a sample solution. The sample channel includes a semi-permeable membrane microvalve. An electric potential is applied at or across the microvalve to preconcentrate the sample solution when the microvalve is closed. | 02-12-2015 |
20150068979 | HOLDER FOR MONOLITHIC SORBENTS - The present invention relates to a holder for monolithic sorbents in which a radial pressure can be exerted over the entire length of the sorbent by a conically tapering clamping tube. | 03-12-2015 |
20150076068 | ACTIVE INLET TEMPERATURE CONTROL FOR ADJUSTMENT OF RETENTION IN A LIQUID CHROMATOGRAPHY SYSTEM - Described are methods in which the retention times of a chromatographic column are adjusted through the control of the temperature of a mobile phase at the inlet to the chromatographic column. The temperature of the mobile phase at the inlet is different from the temperature of the chromatographic column. Adjustment of the temperature of the mobile phase at the inlet can be used as part of a method to transfer a chromatographic method from one liquid chromatography system to another liquid chromatography system. The method can alternatively be adapted for trapping a sample at the head of a chromatographic column to reduce the amount of band broadening of the sample from the sample injector of a liquid chromatography system. A gradient elution can then be performed to cause the concentrated volume of the analyte in the sample to elute in a tight band, resulting in improved measurement sensitivity. | 03-19-2015 |
20150129501 | FLASH CHROMATOGRAPHY COLUMN APPARATUS - A flash chromatography apparatus which provides an improved apparatus for large and medium commercial scale flash chromatography columns. More particularly, the invention relates to a flash chromatography column and cartridge system for positioning and ease of loading and unloading of stationary phase agent in the flash chromatography column. The flash chromatography column further provides flow distributors to support the stationary phase and permit plug flow through the column. The apparatus of the present is modular and can be disposed in any configuration to reduce maintenance cost and downtime in a commercial installation. Flash chromatography is widely used for purification of low molecular weight organic compounds and products of organic synthetic reactions. | 05-14-2015 |
20150136700 | CHROMATOGRAPHIC MATERIALS - The present invention provides a chromatographic stationary phase material various different types of chromatography. One example chromatographic stationary phase is represented by Formula 1 [X](W) | 05-21-2015 |
20150298097 | SURFACE MODIFICATION OF POROUS BASE SUPPORTS - The present invention relates to new separation materials with improved binding capacity, its manufacturing, and application, especially for binding protein A. | 10-22-2015 |
20150328563 | Method for Cleaning of Packed Bed Chromatography Columns - The invention discloses a process for chromatographic separation of at least one target biomolecule from at least one contaminant, comprising the steps of: a) providing an axial chromatography column comprising a consolidated bed of separation matrix particles, where the consolidated bed is confined between a bottom support net and a movable top adaptor; b) separating a target biomolecule from at least one contaminant on the column; c) raising the adaptor by at least 10% of the height of the consolidated bed; d) flowing a cleaning liquid upwards through the bed under conditions sufficient to liquefy the bed, and; e) repacking the matrix particles of the liquefied bed to create a consolidated bed and lowering the adaptor such that it contacts the packed bed and optionally compresses it, and; f) separating a target biomolecule from at least one contaminant on the column. | 11-19-2015 |
20150360145 | CHROMATOGRAPHY SYSTEM WITH TILT-PREVENTION STRUCTURE AND ASSOCIATED PROCESS - Chromatography apparatus and methods are described, especially for expanded bed adsorption. A column tube has a process fluid input device at the bottom and a movable piston in the top. The piston is enclosed in the column by a cover plate. The piston body has an inflatable seal, and is connected by a frame to a contact ring which carries another inflatable member to contact the tube wall. Process fluid leaves the operating volume through an opening of the piston and flexible hose, through the enclosed space and out through the cover plate. The space above the piston can be pressurised to control piston movement. The contact ring maintains piston alignment. The inflatable seals are used to fix the piston in position, allow it to slide or allow washing. The piston outlet may include a vortex-inhibitor. Bed and piston levels may be monitored by ultrasound sensors. | 12-17-2015 |
20150367251 | Apatite In-Situ Restoration - The present invention discloses methods of regenerating apatite surfaces, for example after purification of a target analyte. | 12-24-2015 |
20150367252 | Apatite In-Situ Restoration - Disclosed herein are methods of regenerating apatite surfaces, for example after purification of a target analyte. | 12-24-2015 |
20160030924 | POROUS COMPOSITE PARTICULATE MATERIALS, METHODS OF MAKING AND USING SAME, AND RELATED APPARATUSES - In an embodiment, a porous composite particulate material includes a plurality of composite particles. Each composite particle includes an acid-base-resistant core particle at least partially surrounded by one or more layers of acid-base-resistant shell particles. The shell particles are adhered to the core particle by a polymeric layer. The shell particles and/or core particles may be made from an acid-base-resistant material that is stable in harsh chemical conditions. For example, the shell particles may be made from diamond, graphitic carbon, silicon carbide, boron nitride, tungsten carbide, niobium carbide, zirconia, noble metals, combinations of the foregoing, or other acid-base-resistant materials and the core particle may include at least one exterior layer of non-diamond carbon. The porous composite particulate materials disclosed herein and related methods and devices may be used in separation technologies, including, but not limited to, chromatography and solid phase extraction. | 02-04-2016 |
20160038914 | POROUS COMPOSITE PARTICULATE MATERIALS, METHODS OF MAKING AND USING SAME, AND RELATED APPARATUSES - In an embodiment, a porous composite particulate material includes a plurality of composite particles. Each composite particle includes an acid-base-resistant core particle at least partially surrounded by one or more layers of acid-base-resistant shell particles. The shell particles are adhered to the core particle by a polymeric layer. The shell particles and/or core particles may be made from an acid-base-resistant material that is stable in harsh chemical conditions. For example, the shell particles and/or core particles may be made from diamond, graphitic carbon, silicon carbide, boron nitride, tungsten carbide, niobium carbide, zirconia, noble metals, acid-base stable highly cross-linked polymers, acid-base stable at least partially cross-linked polymers, titania, alumina, thoria combinations of the foregoing, or other acid-base-resistant materials. The porous composite particulate materials disclosed herein and related methods and devices may be used in separation technologies, including, but not limited to, chromatography and solid phase extraction. | 02-11-2016 |
20160074774 | CHROMATOGRAPHY METHOD AND SYSTEM - Chromatography methods and systems are disclosed, wherein a tangential flow filtration device is used to concentrate a product of interest, which improves sorbent utilization. | 03-17-2016 |
20160084806 | Micro-Machined Frit and Flow Distribution Devices for Liquid Chromatography - A micro-machined frit is provided for use in a chromatography column, having a substrate with a thickness, and holes extending through the thickness and providing fluid communication through the substrate. A micro-machined flow distributor is provided for use in a chromatography column having a substrate, holes extending through the substrate, and channels in fluid communication with the holes. A micro-machined integrated frit and flow distributor device is also provided having a substrate with a thickness, holes extending through the thickness and providing fluid communication therethrough, and channels in fluid communication with at least one of the holes. A chromatography column is provided having a tube, an extraction medium contained therein, and a micro-machined frit positioned proximate an end of the tube. The column can include a micro-machined flow distributor positioned between the frit and the end of the tube. | 03-24-2016 |
20160136544 | METHODOLOGY FOR SCALING METHODS BETWEEN SUPERCRITICAL FLUID CHROMATOGRAPHY SYSTEMS - A methodology scales supercritical fluid chromatography (SFC) and/or carbon dioxide based chromatography methods between different system and/or column configurations. The methodology includes measuring an average mobile phase density during a first separation utilizing CO2 as a mo bile phase component and substantially duplicating the average density profile for a second separation. Substantial duplication of the average mobile phase density (e.g., within about 10%, 5%, 2.5%, 1%, 0.5%, 0.1 %, 0.05%) results in chromatography for both system and/or column configurations having similar selectivity and retention factors. Average mobile phase density may be, either measured directly, calculated, or approximated using average pressure or density measurements. The average pressure profile may be used as a close approximation to duplicate average density profiles between separations. | 05-19-2016 |
20160144294 | PURIFICATION DEVICE, AND PURIFICATION METHOD - Provided is a purification device for purifying a useful substance (i.e., target substance) without using an acidic eluent. The purification device purifying the target substance comprises a column and a filler packed in the column. The filler contains a carrier, a temperature responsive polyamino acid bonded to the carrier, and a binding substance bonded to the temperature responsive polyamino acid and specifically bonding to the target substance. | 05-26-2016 |
20160161453 | STACKABLE PLANAR ADSORPTIVE DEVICES - Adsorptive bed devices include a scaffold in housing having a stress absorbing rigid structure and open cells filled with adsorptive beads. The scaffold restricts movement of the plurality of adsorptive beads, absorbs stress induced by a hydraulic pressure gradient along a direction of liquid flow and transfers a portion of the induced compressive stress to the housing. In one embodiment the adsorptive bed is packed into a chromatography column, and in another embodiment the adsorptive bed is sealed in a monolithic block. In another embodiment, the adsorptive bed device includes an adsorptive block, first and second planar distributors and peripheral seal. The adsorptive media includes multiple layers of planarly cohesive media and when operated in a shallow bed configuration possesses significant tensile strength along its planar dimensions enabling it to support the hydraulic pressures that will be generated by the fluids being processed through the adsorptive devices. | 06-09-2016 |
20160178078 | CHECK VALVE HAVING POLYMERIC SEAT AND POPPET | 06-23-2016 |
20160184736 | CHROMATOGRAPHIC COLUMNS AND SEPARATION DEVICES COMPRISING A SUPERFICIALLY POROUS MATERIAL; AND USE THEREOF FOR SUPERCRITICAL FLUID CHROMATOGRAPHY AND OTHER CHROMATOGRAPHY - The present invention provides novel chromatographic materials, e.g., for chromatographic separations, processes for its preparation and separations devices containing the chromatographic material; separations devices, chromatographic columns and kits comprising the same; and methods for the preparation thereof. The chromatographic materials of the invention are superficially porous chromatographic particulate materials comprising sized less than 2 microns. | 06-30-2016 |
20160184737 | NEW PROCESS AND SYSTEM FOR MAGNETIC SEPARATION - A process for large scale separation of molecules comprising the steps of providing magnetic porous particles having an affinity to said molecules to be separated; mixing said magnetic porous particles with a solution containing said molecules; bringing said mixture in contact with a magnetic separation device comprising a flow channel and at least one magnetic element; removing said at least one magnetic element and collecting the magnetic porous particles carrying said molecules; separating said molecules from said magnetic porous particles; obtaining a concentrated fraction of said molecules; and recirculating the magnetic porous particles. A system for performing this process. | 06-30-2016 |
20160199751 | MOBILE PHASE CONTROLLER FOR SUPERCRITICAL FLUID CHROMATOGRAPHY SYSTEMS | 07-14-2016 |