Patent application number | Description | Published |
20080220509 | Nucleic Acid Amplifier - Disclosed herein is a nucleic acid amplifier for carrying out a nucleic acid amplification reaction, the amplifier including at least: a plurality of wells configured to carry out the nucleic acid amplification reaction; a heating unit provided for every well; optical means capable of irradiating excitation light of a specified wavelength to all of the wells; and a fluorescence detection unit provided for every well. | 09-11-2008 |
20080241491 | METHOD OF PREPARING A SUBSTRATE HAVING A LAYER OR PATTERN OF METAL ON IT - A method and associated substrate is provided for applying a layer or pattern of metal on a substrate. The method includes providing a target substrate, immobilizing a layer of polymeric material on the target substrate, and applying and immobilizing a layer or pattern of metal on the layer of polymeric material on the target substrate using a stamp onto which the layer or pattern of metal has previously been applied, by bringing the stamp into conformal contact with the target substrate. | 10-02-2008 |
20080245410 | PHOTOVOLTAIC CELL - The present invention relates to a photovoltaic cell, a method of manufacturing such photovoltaic cell, and to uses of such cell. | 10-09-2008 |
20080245675 | METHOD OF ALTERING THE SENSITIVITY AND/OR SELECTIVITY OF A CHEMIRESISTOR SENSOR - The present invention relates to a method of altering the sensitivity and/or selectivity of a chemiresistor sensor, to a sensor and a sensor array produced by such method. | 10-09-2008 |
20090137053 | BEAD SET, PRODUCTION PROCESS OF THE BEAD SET, AND METHOD OF USING THE BEAD SET - A bead set is composed of plural subsets of beads. The beads in each subset are each provided with a surface permitting immobilization thereon of a substance that takes part in a predetermined corresponding reaction or interaction. The individual beads in the beat set are provided with different physical elements, respectively, such that the individual beads in the bead can be distinguished into the plural subsets through an analysis of captured images of the individual beads in the bead set by a computer. | 05-28-2009 |
20090183831 | METHOD OF APPLYING A MATERIAL ON A SUBSTRATE - A method of applying material on a substrate. The material to be applied can be a pattern of material. | 07-23-2009 |
20090214838 | METHOD OF APPLYING A PATTERN OF METAL, METAL OXIDE AND/OR SEMICONDUCTOR MATERIAL ON A SUBSTRATE - The present application relates to a method of applying a pattern of metal, metal oxide and/or semiconductor material on a substrate, to a pattern created by such method and to uses of such pattern. Furthermore, the present invention relates to an assembly of layers that can be used for printing. | 08-27-2009 |
20090244443 | COMPOSITION COMPRISING AT LEAST ONE TYPE OF LIQUID CRYSTAL - The present invention relates to a composition comprising at least one type of liquid crystal, to a liquid crystal cell and liquid crystal display device comprising such composition and to a method of preparing such a composition and/or such a liquid crystal cell. | 10-01-2009 |
20090251765 | COMPOSITION FOR PHOTON-ENERGY UP-CONVERSION - The present invention relates to a composition for photon energy up-conversion, a system comprising said composition and to uses of said composition and said system. | 10-08-2009 |
20100008394 | TEMPERATURE AND TEMPERATURE DISTRIBUTION SENSING WITH HIGH RESOLUTION IN MICROSCOPIC ELECTRONIC DEVICES AND BIOLOGICAL OBJECTS - The present invention relates to a method of measuring a temperature and/or temperature distribution at a resolution <1 &mgr; m in an object and to a device for performing such method, more particularly to a microscope for performing such method. The method comprises applying a molecular thermometer embedded in a matrix layer on an object, photoexciting the said molecular thermometer with a light source of said microscope and measuring emission of radiation from said molecular thermometer with two photodetectors of said microscope. A first intensity at a first wavelength is measured by said first detector, a second intensity at a second wavelength is measured by said second.detector, and a ratio of said intensities is calculated and used to determine a temperature with a calibrated curve. Said microscope is a confocal microscope or a stimulated emission depletion (STED) microscope. | 01-14-2010 |
20100012826 | ZEEMAN-SLOWER, COIL FOR A ZEEMAN-SLOWER DEVICE AND A METHOD FOR COOLING AN ATOM BEAM - A Zeeman-slower device, a coil for such a Zeeman-slower device, and a method for cooling an atom beam. The Zeeman-slower includes a cooling section including an inner passage extending along a longitudinal axis, the inner passage having a cross-section perpendicular to the longitudinal axis, wherein the area of the cross-section of the inner passage increases monotonously along the longitudinal axis at least in a part of the cooling section. | 01-21-2010 |
20100024877 | METHOD OF PREPARING A POROUS SEMICONDUCTOR FILM ON A SUBSTRATE - A method of preparing a porous semiconductor film on a substrate comprising the steps: a) preparing, on a first substrate, an adhesion layer capable of providing electrical and mechanical contact between a porous semiconductor layer attached to said adhesion layer and said first substrate, b) applying on a second substrate that is capable of withstanding temperatures >=300° C. a spacer layer and applying a porous semiconductor layer on said spacer layer, c) applying an assisting layer on said porous semiconductor layer, said assisting layer providing support for said porous semiconductor layer, d) removing said spacer layer e) transferring said porous semiconductor layer supported by said assisting layer onto said ashesion layer, f) pressing said porous semiconductor layer onto said adhesion layer, g) removing said assisting layer from said porous semiconductor layer, thereby obtaining said first substrate having as a porous semiconductor film said porous semiconductor layer attached thereon by way of said adhesion layer. | 02-04-2010 |
20100056753 | METHOD OF PRODUCING A POLY (ETHYLENE OXIDE ) COPOLYMERISED WITH AT LEAST ONE OTHER ALKYLENE OXIDE - The present invention relates to a method of producing a poly(ethylene oxide) copolymerized with one alkylene oxide and to a poly(ethylene oxide-co-alkylene oxide) copolymer produced by such method, a photovoltaic device containing such poly(ethylene oxide-co-alkylene oxide)-copolymer, and to uses of such poly(ethylene oxide)-(alkylene oxide)-copolymer. | 03-04-2010 |
20100073605 | METHOD OF PREPARING A POLYMER DISPERSED LIQUID CRYSTAL - The present invention relates to a method of preparing a polymer dispersed liquid crystal, to a method of producing a polymer dispersed liquid crystal cell, to a polymer dispersed liquid crystal and a polymer dispersed liquid crystal cell produced by such method, to a liquid crystal display containing a plurality of such polymer dispersed liquid crystal cells and to the use of particles for preparing a polymer dispersed liquid crystal. | 03-25-2010 |
20100102280 | METHOD OF PRODUCING A FILM OF CARBON NANOTUBES ON A SUBSTRATE - A method of producing a film of carbon nanotubes on a substrate, a film produced by such method, and uses of such a film. | 04-29-2010 |
20100112620 | BIORHYTHM INFORMATION ACQUISITION METHOD - A method of acquiring information on a biorhythm on the basis of a variation with time of the quantity of a physiologically active substance in tear and/or saliva is provided. | 05-06-2010 |
20100212737 | DYE INCLUDING AN ANCHORING GROUP IN ITS MOLECULAR STRUCTURE - A dye including an anchoring group in its molecular structure, said anchoring group allowing a covalent coupling of said dye to a surface, for example a surface of a nanoporous semiconductor layer, said anchoring group being represented by formula 1 wherein attachment of said anchoring group within said molecular structure of said dye is at the terminal carbon marked with an asterisk in above formula, wherein G is selected from —COOH, —SO3H, —PO3H2, —BO2H2, —SH, —OH, —NH2, preferably —COOH, wherein A is selected from the group comprising H, —CN, —NO2, —COOR, —COSR, —COR, —CSR, —NCS, —CF3, —CONR2-OCF3, C6H5-mFm, wherein m=1-5, R being H or any straight or branched alkyl chain of general formula —CnH2 | 08-26-2010 |
20100264850 | IMAGE DISPLAY DEVICE - An object is to provide an image display device which exercises a function of adjusting a biological clock without changing a visibility of an image. An image display device (A) for displaying an image by radiating a light from a light source ( | 10-21-2010 |
20110180906 | METHOD OF APPLYING A PATTERN OF METAL, METAL OXIDE AND/OR SEMICONDUCTOR MATERIAL ON A SUBSTRATE - A method of applying a pattern of metal, metal oxide, and/or semiconductor material on a substrate, a pattern created by that method, and uses of that pattern. | 07-28-2011 |
20110242485 | FLUORESCENCE IMAGE ACQUISITION METHOD, FLUORESCENCE IMAGE ACQUISITION PROGRAM, AND FLUORESCENCE IMAGE ACQUISITION APPARATUS - A fluorescence image acquisition method including: irradiating an eyeground with a short-pulse beam of light for exciting a fluorescent dye; setting the time point of emission of the light as a reference, measuring the intensities of luminescence of the fluorescent dye at two different times which are predetermined periods of time after the reference, determining the ratio between the intensities of luminescence at the two different times, and detecting the intensity of luminescence of the fluorescent dye having marked a target by using the ratio; and generating a fluorescence image of the fluorescent dye having marked the target, based on the results of detection by the detecting step. | 10-06-2011 |
20110286263 | MEMORY DEVICE - Memory device, comprising a storage material, a first electrode connected to the storage material; and a second electrode associated to the storage material. | 11-24-2011 |
20120004856 | SPECTRAL DATA ANALYZER, BIOLOGICAL SUBSTANCE DETECTION SYSTEM, AND BIOLOGICAL SUBSTANCE DETECTION METHOD - A spectral data analyzer is disclosed. The spectral data analyzer calculates the spectral intensity ratio of a C—H band and an amide I band in a Raman spectrum that corresponds to a substance present in a body tissue; and automatically determines the presence or absence of amyloid beta in the substance based on the calculated ratio. | 01-05-2012 |