Patent application number | Description | Published |
20090062522 | MONOLITHIC-SHAPED BODIES FOR PURIFYING AND SEPARATING BIOPOLYMERS - The present invention concerns new monolithic shaped bodies, a method for their preparation as well as their use especially for the selective purification and separation of biopolymers. A chromatographic separation material is provided with the new monolithic shaped bodies that allows a selective, efficient and reproducible purification and separation of biopolymers. | 03-05-2009 |
20100056769 | METHODS AND KIT FOR ISOLATING NUCLEIC ACIDS - The present invention is related to a method for isolating a target nucleic acid from a sample comprising said target nucleic acid, comprising the steps of mixing a sample containing said target nucleic acid with a binding solution and a nucleic acid binding matrix, binding at least part of said target nucleic acid to said nucleic acid binding matrix, wherein said nucleic acid binding matrix is treated simultaneously or has been previously treated with at least one compound comprising a metal substance selected from the group consisting of metals of the main groups 13 to 16, semimetals and transition metals for reducing non-target nucleic acid contaminations or wherein said nucleic acid binding matrix is modified with hydrophobic groups. Furthermore, respective kits and reagents are provided with the teaching of the present invention. | 03-04-2010 |
20110130558 | METHOD FOR ISOLATING NUCLEIC ACIDS - The invention relates to a method and kits for isolating and/or purifying nucleic acids, in particular, short-chain nucleic acids, from a nucleic acid containing starting material, characterised by the following method steps: (a) bonding the nucleic acids to a nucleic acid bonding support material, wherein the starting material is brought into contact with the nucleic acid bonding support material in the presence of at least one chaotropic compound and preferably isopropanol, wherein the isopropanol is present in a concentration of ≧15% (v/v) and ≦35% (v/v), (b) optional elution of the bonded nucleic acids from the nucleic acid bonding support material. Said method is particularly suitable for the purification of foetal DNA from maternal blood | 06-02-2011 |
20110160446 | METHOD FOR ISOLATING SHORT-CHAIN NUCLEIC ACIDS - The invention relates to a method and kits for isolating and/or purifying nucleic acids, in particular, short-chain nucleic acids, from a nucleic acid containing starting material, characterised by the following method steps: (a) bonding the nucleic acids to a nucleic acid bonding support material, wherein the starting material is brought into contact with the nucleic acid bonding support material in the presence of at least one chaotropic compound and preferably isopropanol, wherein the isopropanol is present in a concentration of ≧25% (v/v) and ≦35% (v/v), (b) optional elution of the bonded nucleic acids from the nucleic acid bonding support material. Said method is particularly suitable for the purification of foetal DNA from maternal blood. | 06-30-2011 |
20110186524 | Porous Ferro- or Ferrimagnetic Glass Particles for Isolating Molecules - Porous, ferro- or ferrimagnetic, glass particles are described that selectively bind molecules of interest, especially nucleic acid molecules; under appropriate conditions. Methods of preparing the porous, ferro- or ferrimagnetic, glass particles and their use for identifying or separating molecules of interest are also described. Kits comprising the porous, ferro- or ferrimagnetic, glass particles are also provided. | 08-04-2011 |
20120283426 | Methods and Kit for Isolating Nucleic Acids - The present invention is related to a method for isolating a target nucleic acid from a sample comprising said target nucleic acid, comprising the steps of mixing a sample containing said target nucleic acid with a binding solution and a nucleic acid binding matrix, binding at least part of said target nucleic acid to said nucleic acid binding matrix, wherein said nucleic acid binding matrix is treated simultaneously or has been previously treated with at least one compound comprising a metal substance selected from the group consisting of metals of the main groups 13 to 16, semimetals and transition metals for reducing non-target nucleic acid contaminations or wherein said nucleic acid binding matrix is modified with hydrophobic groups. Furthermore, respective kits and reagents are provided with the teaching of the present invention. | 11-08-2012 |
Patent application number | Description | Published |
20080209659 | Windshield Wiper Device - The invention relates to a windshield wiper device, in particular for a motor vehicle, comprising a fastening device ( | 09-04-2008 |
20080289135 | Plastic Articulated Arm - The invention is based on a plastic articulated arm ( | 11-27-2008 |
20100218333 | WIPER BLADE - The invention relates to a wiper blade ( | 09-02-2010 |
20110192244 | DRIVE DEVICE - The invention relates to a drive device for a windshield wiper device for moving an output shaft ( | 08-11-2011 |
20130333377 | ELECTROMECHANICAL BRAKE BOOSTER WITH ADJUSTABLE NON-LINEAR ASSISTANCE FORCE - The present invention relates to an electromechanical brake booster with adjustable non-linear assistance force, comprising a brake booster piston ( | 12-19-2013 |
20150197231 | Electric Brake Booster with Transmission Clearance Compensation - An electric brake booster includes an electric motor activating a booster piston acting on the master-cylinder during brake pedal activation. The booster piston is driven in the direction of the action of same on the master-cylinder by an electric motor linked to a mechanical transmission that includes a screw held by the motor shaft. The screw meshes with two symmetrical worm gears that are integral with respective transmission shafts housed in a bearing of the body of the brake booster. The two shafts each carry a spur gear that meshes with a rack of the booster piston. The shafts are free in translation relative to the screw and to the body of the electric brake booster but are integral with each other in the translational movement of same. The shafts are integrally connected in translation by a coupling member formed by a crosspiece carrying two rotation bearings. | 07-16-2015 |
Patent application number | Description | Published |
20090185110 | Liquid crystal display having a field emission backlight - An LCD display has a programmable back-light device that produces multiple different color fields from multiple different phosphor elements. The backlight device can be a low resolution FED device. The phosphor is applied by an electrophotographic screening process or direct electrostatic screening process. The FED device can further incorporate a wide gamut phosphor. | 07-23-2009 |
20090186165 | Liquid crystal display having a field emission backlight - An LCD display has a programmable backlight device that produces multiple different color fields from multiple different phosphor elements. The backlight device can be a low resolution FED device. The phosphor is applied by an electrophotographic screening process or direct electrostatic screening process. The FED device can further incorporate a wide gamut phosphor. | 07-23-2009 |
20090251043 | Coatings for Spacers in Emission Displays - A resistive spacer coating for a carbon nanotube (CNT)/field emission device (FED) display is described. The resistive spacer coating reduces electrostatic charging of the spacer during operation of the display while maintaining the field potential between the cathode and the phosphor screen. The resistive coating includes one or more resistive materials which are combined with binders that are then applied to the spacer. | 10-08-2009 |
20100045589 | DISPLAY DEVICE HAVING FIELD EMISSION UNIT WITH BLACK MATRIX - A liquid crystal display includes a liquid crystal display front end component ( | 02-25-2010 |
20100060820 | SCREEN STRUCTURE FOR FIELD EMISSION DEVICE BACKLIGHTING UNIT - A liquid crystal display includes a liquid crystal display front end component joined to a field emission device backlighting unit. The field emission device backlighting unit has a cathode and an anode. The cathode is provided with a plurality of emitter cells. The anode is provided with a screen structure having a plurality of phosphor elements that are each formed as a substantially continuous stripe. Each of the phosphor elements has a plurality of the emitter cells aligned therewith. | 03-11-2010 |
20100164366 | Luminescent materials for a carbon nanotube (cnt) field emission device (fed) - A RGB phosphor system for a carbon nanotube (CNT)/field emission device (FED) display operated between about 4-10 kV. The RGB phosphor system is formed on an interior surface of a screen of the CNT/FED display. The RGB phosphor system includes ZnS:Cu, Al (green phosphor), ZnS:Ag,Cl (blue phosphor) and Y | 07-01-2010 |