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364 results about "Fluorometric Analysis" patented technology
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Looking for fluorometric analysis? Find out information about fluorometric analysis. A method of chemical analysis in which a sample, exposed to radiation of one wavelength, absorbs this radiation and reemits radiation of the same or longer... Explanation of fluorometric analysis
Instrument setup system for a fluorescence analyzer
The present invention provides instruments for analyzing a multiplicity of fluorescent dyes using a multiplicity of amplifying photodetectors, methods for using the instruments, methods for setting the instrument parameters, and methods for resetting the instrument parameters following a changed in photodetector amplification. The present invention is particularly applicable in the field of flow cytometry.
Owner:BECTON DICKINSON & CO
Fluorescent analysis method
InactiveUS20120126142A1Improve detection efficiencyImprove throughputEmission spectroscopyPhotometrySequence analysisLength wave
Disclosed is a fluorescent analysis method whereby the throughput in DNA sequence analysis or the like can be improved. The method comprises irradiating a substrate, which carries biological molecules such as oligonucleotides immobilized thereon, with light for fluorescent measuring, collecting the generated fluorescence, dispersing the collected light, forming an image by focusing the light on a two-dimensional sensor, and then detecting the fluorescence with the two-dimensional sensor. In this method, since wavelengths are dispersed in different directions and then detected at the same time, the intensity of each dispersed wavelength and the position of the subject of spectroscopic imaging can be calculated even in the case where the wavelength dispersion distance is longer than the inter-lattice distance.
Owner:HITACHI HIGH-TECH CORP
Method for producing fluorescent microballoons immune chromatography test paper stripe and quantitative determination method
ActiveCN101493460ASimple and fast operationHigh sensitivityFluorescence/phosphorescenceFiberCompound organic
The invention discloses a method for preparing fluorescent microspheres immunochromatographic test paper strip and quantitative detection method. The invention takes the luminous nano-particles of dual-structure silicon dioxide compound organic dye as a marker, uses the immunochromatographic technology for preparing fluorescent microspheres immunochromatographic test paper strip, and then prepares a detection card which consists of a sample pad, a glass fiber membrane, a nitrocellulose membrane and absorbent paper, wherein the nitrocellulose membrane is fixedly provided with a detection line and a quality control line. In the detection process, the best excitation light souce of fluorescent microspheres is used for excitation; after the emitted fluorescence passes through a filter, a CCD scanning technology or fiber-optic technology is used for collecting, accumulating or multiplicating the emitted spectra which is then converted into a numerical signal; then the measured fluorescence intensity of the detection line is multiplied by a correction coefficient, and later the corrected fluorescence intensity is substituted in a standard curve which is preset in a fluorescence analyzer; and finally, the concentration of an object to be measured in the sample can be automatically calculated and obtained by the fluorescence analyzer. The invention has high sensitivity, accurate quantization and easy operation.
Owner:江西中德生物工程股份有限公司
Fluorescent micro-ball immune chromatography test paper strip for detecting residual animal medicine and preparing method thereof
The invention discloses a test paper strip for the fluorescent bead immunochromatography of veterinary medicine remained in a detected sample and a preparation method thereof. A filter paper, a sample pad, a fiberglass membrane, a pyroxylin membrane and water sucking paper are sequentially stuck on a base plate in related joint; fluorescent beads are sprayed on the pyroxylin membrane for marking a veterinary medicine resistant molecule monoantibody; the pyroxylin membrane coated with a veterinary medicine molecule holoantigen is used as a detection region; the pyroxylin membrane coated with an anti-mouse antibody is used as a quality control region; and the test paper strip is prepared through the following steps: (1) the preparation of the pyroxylin membrane; (2) the preparation of a fluorescent bead pad; and (3) the assembling of the test paper strip. In the detecting process, emitted spectrums pass through a proper optical filter device; and all the emitted spectrums are collected through CCD scanning technology, are congregated, are multiplied and are analyzed through a fluorescence analyzer and relevant software to obtain a quantized fluorescence signal, thereby realizing quantitative detection. The test paper strip is mainly used for the qualitative detection and the quantitative detection of all the veterinary medicine classes in food safety detection.
Owner:WUXI ZODOLABS BIOTECH
Lanthanide Chelates and Use Thereof in Bioanalysis
InactiveUS20110136242A1Improve stabilityGood spectral characteristicsChemiluminescene/bioluminescenceGroup 3/13 element organic compoundsFluorescenceQuantitative determination
Novel chemical compounds, with application in fluorometric analytical methods, for qualitative and quantitative determination of biomolecules. The aim of the invention is to identify and prove the suitability of such compounds. Said aim is achieved with compounds of formula (1) where R′ is an antenna function, R2 is a chelate forming agent, containing a coordinated lanthanide(III)ion, X is —OH or a group with affinity for the biomolecule, bonded to a carboxylate group of the chelate forming agent by means of an amide bond and Y is —H or a group with affinity for the biomolecule, coupled to the antenna function.
Owner:SENSIENT IMAGING TECH GMBH
Continuous fluorogenic analyte assays with dendritic amplification of signal
InactiveUS20070009980A1Fluorescent signal enhancementUseful in detectionCompound screeningApoptosis detectionDendrimerAnalyte
Owner:APPL BIOSYSTEMS INC
Immunochromatography quantitative determination reagent based on near infrared fluorescence nanoparticle markers
ActiveCN103197074AImprove chromatography propertiesHigh detection sensitivityMaterial analysisMicrosphereChemical products
The invention relates to a method based on near infrared fluorescence molecules and nano particle marks as well as an immunochromatography quantitative detection reagent based on near infrared fluorescence nanoparticles. According to the invention, infrared fluorescence is connected with nanoparticles to prepare an immunochromatography test strip based on the near infrared fluorescence nanoparticles. During the detection, an infrared light scanner is utilized, and a quality control line and a sample line are respectively scanned by utilizing near infrared light; and after the fluorescence intensity of a detection line is rectified by utilizing the fluorescence intensity of a quality control line, and a standard curve in a fluorescence analyzer is taken in, the concentration of a to-be-detected matter in a sample can be analyzed and detected. Compared with the direct connection of the near infrared fluorescence molecules and detecting molecules, the near infrared fluorescence nanoparticle immunochromatography improves the detection flexibility obviously, and the lowers the background fluorescence intensity. The marking method and the reagent can be applied to microorganism detection, food safety detection, poison detection as well as rapid dangerous chemical product detection.
Owner:BEIJING RUNBO FUDE BIOLOGICAL TECH DEV
Iron alloy fusing sample preparation method for X-ray fluorescence spectrum analysis
InactiveCN101832891AReduce sample preparation timeAnalytical results are reliableMaterial analysis using wave/particle radiationPreparing sample for investigationX-rayFerrosilicon
The invention relates to an iron alloy fusing sample preparation method for X-ray fluorescence spectrum analysis, belonging to the technical field of materialization detection and aiming to solve the problem that fusing a film production alloy sample can erode a platinum crucible. The method comprises the steps of building up wall of the platinum crucible, preparing an oxidizing agent, pre-oxidizing an iron alloy sample and fusing and preparing sample from the iron alloy sample. The invention provides the fusing sample preparation method suitable for various iron alloys such as ferromanganese, silicomanganese, calcium silicon, ferrosilicon, ferromolybdenum, ferrotitanium, cymrite, ferrochrome, ferrocolumbium, ferrovanadium, silicon silicomanganese and the like. By adopting the method, a glass fusing piece can be manufactured without eroding the valuable platinum crucible, the sample can be completely oxidized in the sample preparation process, the sample preparation time is short, the prepared glass fusing piece is uniform and perfect, and the mineral effect and the granularity effect can be completely eliminated. The invention has safe and reliable method, simple and convenient operation and good repeatability, is suitable for various iron alloy samples and widens the application range of the fluorescence analysis.
Owner:HBIS COMPANY LIMITED HANDAN BRANCH COMPANY
Fluorescent microsphere immunochromatographic testing card for testing five indexes of hepatitis b and method for preparing same
InactiveCN101726596ASimple and fast operationHigh sensitivityBiological testingLuminescent compositionsCelluloseHepatitis B virus
The invention discloses a fluorescent microsphere immunochromatographic testing card for testing five indexes of hepatitis b and a method for preparing the same. The testing card comprises a hepatitis b surface antigen test paper strip, a hepatitis b e surface antigen test paper strip, a hepatitis b surface antibody test paper strip, a hepatitis b e surface antibody test paper strip, and a hepatitis b core antibody test paper strip. Each test paper strip is formed by overlapping and bonding filter paper, a sample pad, a glass fiber film spray-coated with fluorescent microspheres, a cellulose nitrate film and water absorption paper on a bottom plate by glue in sequence, wherein the cellulose nitrate film is coated with antigens serving as a testing area and anti-rabbit antibodies serving as a quality control area; and during a test, after emitted fluorescent light passes a filter, the emitted spectrum is collected, accumulated and multiplied by the CCD scanning technology and then converted into a numerical signal, the numerical signal is multiplied by a correction factor, and the strength of the corrected fluorescent light is substituted in a standard curve of a fluorescence analyzer, so that the concentrations of the five indexes of hepatitis b of the sample can be automatically worked out. The test of hepatitis b viruses by the testing card has the characteristics of specificity, sensitivity, simpleness and accuracy.
Owner:WUXI ZODOLABS BIOTECH
X-ray multiple spectroscopic analyzer
InactiveUS20120288058A1Material analysis using wave/particle radiationX-ray spectral distribution measurementSoft x rayAnalysis data
Owner:RIGAKU CORP
Immunochromatographic quantitative test reagent based on near-infrared fluorescent marker
ActiveCN102680692AHigh detection sensitivityHigh sensitivityMaterial analysisMicroorganismFood safety
The invention relates to an immunochromatographic quantitative test reagent based on a near-infrared fluorescent marker. A near-infrared fluorescent molecule is adopted as a marker, and the immunochromatographic technology is adopted to prepare a near-infrared fluorescent immunochromatographic test strip. In the test process, a conventional near-infrared test instrument is used for respectively scanning a quality control line and a sample line through near-infrared rays, and after being corrected by utilizing the fluorescent strength of the quality control line, the fluorescent strength of a detection line is substituted in a standard curved line in a fluorescent analysis instrument, so that the concentration of an object to be tested in a test specimen can be analyzed. The reagent can be applied to the detection of microorganism, the food safety detection, the drug detection and the quick detection of dangerous chemicals. The immunochromatographic quantitative test reagent has characteristics of high sensitivity, accuracy in quantization and convenience in operation.
Owner:BEIJING RUNBO FUDE BIOLOGICAL TECH DEV
Fluorescence analyzing apparatus and fluorescence detecting apparatus
ActiveUS20120097864A1Efficient detectionLow costPhotometrySolid-state devicesLuminous fluxFluorometric Analysis
Provided are a method and an apparatus for easily identifying and detecting fluorescent material types captured in respective reaction regions of a substrate, particularly, a method and an apparatus for identifying and measuring the fluorescence intensities of a plurality of fluorescent materials using a small pixel count. The fluorescence intensities of four or more types of fluorescent materials are divided by a dividing section at ratios different at least for each fluorescence maximum wavelength range, and are detected by at least one detector including pixels for detecting the light fluxes divided at the different ratios. The type of the fluorescent material is determined on the basis of the ratio of the detected fluorescence intensity of the same detection portion, and the fluorescence intensity is measured.
Owner:HITACHI HIGH-TECH CORP
Automatic multichannel flow-like image fluorescence analysis system
ActiveCN104990907AAdjustable distanceRealize automatic adjustmentMicroscopesFluorescence/phosphorescenceMicroscopic imageAutomatic control
Owner:SHANGHAI RUIYU BIOTECH
Surface plasmon resonance fluorescence analysis device and surface plasmon resonance fluorescence analysis method
ActiveUS20130175457A1Suppress displacement of reflection positionReduce the ratioBeam/ray focussing/reflecting arrangementsPhotometryPrismAnalysis method
In the present invention, a specimen is made to flow on a metal film on a prism, and excitation light (α) is emitted in a predetermined direction. By changing the position of a reflective member that reflects the excitation light (α), and adjusting the orientation of a reflective surface of the reflective member, the incident angle (θ) is changed while maintaining a state in which the excitation light (α) that enters the prism is reflected at a specific position on the metal film. The intensity of light to be generated on the metal film is measured, and the reflective member is positioned to match the position of the reflective member and the orientation of the reflective surface when a maximum amount of light is measured.
Owner:OTSUKA PHARM CO LTD
Mapping volumes of interest in selected planes in liquid samples
ActiveUS20140319379A1Beam/ray focussing/reflecting arrangementsPhotometryAnalyteFluorometric Analysis
A method and apparatus for three dimensional fluorescent analysis of a target in a liquid sample having fluorescent analyte as a target substance or fluorescent label on the target substance. A rotating carousel carries liquid samples beneath a beam having a beam spot at a horizontal plane of the sample. The carousel advances slowly a linear direction during rotation so that a pattern of overlapping spiral scans provide R-theta two-dimensional samples of the entire plane to identify locations of volumes of interest where fluorescence is measurably higher than background. These locations are probed in the depthwise direction to find locations of fluorescent analyte in three dimensions. Light from the analyte or fluorescent label is detected and processed to characterize the target by color, size or other morphology.
Owner:REAMETRIX
High throughput methods for analysis of contamination in environmental samples
ActiveUS20110092377A1Improve throughputLow costLibrary screeningMaterial analysis by optical meansFiltrationBiology
Use of high throughput methods to analyze samples for toxic elements originating from industrial hygiene and environmental sampling are described. These methods utilize optical detection methods using plates with arrays and microwells. Methods to fabricate samples in such plates are described. The invention is particularly illustrated by demonstrating its applicability for analysis of beryllium by fluorescence and uranium by phosphorescence. This invention also discloses the use of improved filtration method and use of reagents with low background signals.
Owner:BERYLLIANT
Fluorescence microballoon immunochromatography testing card for testing HIV and preparation method
InactiveCN101576562AQuick checkSimple and fast operationBiological testingMicrosphereHIV p24 Antigen
The invention discloses a fluorescence microballoon immunochromatography testing card for quantitatively testing HIV and preparation method. The testing card comprises A and B test paper, a sample cushion, a glass fibrous membrane, a nitrocellulose membrane and drinking paper, wherein, the nitrocellulose membrane is thereon fixed with a test line and a quality control line for realizing the simultaneous test of HIV antibody and HIV p24 antigen. The invention takes nucleocapsid dual-structural light-emitting nano-particles compounded by silicon dioxide and fluorescent substance as marks and adopts immunochromatographic technique to realize quantitative immunoassay of HIV. In the testing process, fluorescence microballoon excitation light source is adopted to carry out excitation, after the emitted fluorescence passes through an optical filter device, all emission spectra are collected, aggregated and multiplied by CCD scanning technique or optical fiber technique, and are then converted into numerical signals, the concentration of the substance to be measured is automatically calculated by using the built-in analysis software in a fluorescence analyzer. The invention has the advantages of high sensitivity, precise quota, fast detection, convenient operation, and economy and practicality.
Owner:WUXI ZODOLABS BIOTECH
Fluorescence analysis method for determining glucose by employing nanometer copper oxide as simulated peroxide
The invention discloses a fluorescence analysis method ( / b) for determining glucose by employing (b) nanometer copper oxide as simulated peroxide. The fluorescence analysis method for determining glucose by employing nanometer copper oxide as simulated peroxide is characterized by comprising the following steps: firstly, mixing glucose, glucose oxidase and phosphate buffer in a warm bath, and then adding the phosphate buffer; continuing to carry out warm bath on terephthalic acid and the nanometer copper oxide, wherein the fluorescence excitation wavelength and the emission wavelength of a reaction product of the mixing solution are 315nm and 421nm, the linear range of glucose content measurement is 3-120mumol / L, and the detection limit is 1.94mumol / L. Therefore, the method can be applied to determination of blood sugar concentration.
Owner:FUJIAN MEDICAL UNIV
Ratio fluorescence analysis method for detecting mercury ions
ActiveCN110018141AEfficient quenchingInhibition of catalytic activityMaterial nanotechnologyColor/spectral properties measurementsFluorophoreCatalytic effect
The invention belongs to the field of fluorescence analysis technology, and specifically discloses a ratio fluorescence analysis method for detecting mercury ions based on silicon-doped carbon quantumdots and platinum-gold nano-particles. The ratio fluorescence analysis method for detecting the mercury ions specifically comprises that: the silicon-doped carbon quantum dot which can emit blue fluorescence and is prepared by using N-[Beta]-(aminoethyl)-[Gamma]-aminopropyl trimethoxysilane and citric acid as a silicon source and a carbon source separately is used as a reference fluorophore; andthe platinum-gold nano-particles catalyze the OPD to produce a DAP-responsive fluorophore which can emit orange-yellow fluorescence; meanwhile, since the DAP characteristic absorption spectrum mostlyoverlaps with the emission spectrum of the silicon-doped carbon quantum, the DAP can efficiently quench the silicon-doped carbon quantum dots. Meanwhile, the catalytic effect of the platinum-gold nano-particles can be specifically inhibited by using the metal-selective effect of the mercury ions; therefore, the detection of trace mercury ions using the double-emission ratio fluorescence analysis method is realized. The ratio fluorescence analysis method for detecting the mercury ions has the advantages such as simple operation, high sensitivity, quickness and convenience, and can be used for rapid detection of mercury ions, which has broad application prospects.
Owner:SOUTH CHINA AGRI UNIV +1
Full-elemental analysis method for stainless steel sample
ActiveCN102359972AImprove the measurement effectShort analysis timeMaterial analysis using wave/particle radiationColor/spectral properties measurementsPhysical chemistryElemental analysis
The invention relates to a full-elemental analysis method for a stainless steel sample, and belongs to the field of metallurgical analysis. According to the method, a direct reading spectrometry method and a X-ray fluorescence analysis method are respectively adopted to analyze elements of C, Si, Mn, P, S, Cu, Al, Mo, V, Ti, Co, As, Sn and Pb; the analysis result of the direct reading spectrometry method and the analysis result of the X-ray fluorescence analysis method are subjected to a correlation treatment; concentration input ports corresponding to the elements of C, Si, Mn, P, S, Cu, Al,Mo, V, Ti, Co, As, Sn and Pb are added to a X-ray fluorescence analyzer; a direct reading spectrometer is adopted to analyze the elements of C, Si, Mn, P, S, Cu, Al, Mo, V, Ti, Co, As, Sn and Pb; theX-ray fluorescence analyzer is adopted to analyze the elements of Cr, Ni and Fe; the direct reading spectrometer transmits the analysis result to the X-ray fluorescence analyzer by network to performinterference correction calculations of the elements of Cr, Ni and Fe; the full-elemental analysis result of the stainless steel sample is reported after all the data are merged. With the present invention, the full elements of the stainless steel sample can be rapidly analyzed, and the analysis time is 5 minutes.
Owner:SHANXI TAIGANG STAINLESS STEEL CO LTD
Rotary table device and full-automatic immune fluorescence analyzer with same
ActiveCN105866454AImprove work efficiencyImprove convenienceMaterial analysisPulp and paper industryIMMUNE FLUORESCENCE
The invention discloses a rotary table device. The rotary table device comprises a test paper clip and a first rotary table of a pushing mechanism, the test paper clip feeds test paper automatically, and the pushing mechanism pushes the test paper away from the first rotary table; a second rotary table is an annular structure coaxially arranged on the outer side of the first rotary table in a sleeving mode; a guide-track groove is formed in the second rotary table in an embedded mode, and a first opening is formed in the portion, close to the outer edge and right opposite to the upper portion of the guide-track groove, of the second rotary table; one end of the guide-track groove is communicated with a test paper outlet, a second opening is formed in the other end of the guide-track groove, and an elastic piece is arranged at the end, close to the second opening, of the guide-track groove; the test paper extends out of the test paper outlet, is firstly pushed by the pushing mechanism and slides along the guide-track groove till the test paper is blocked by the elastic piece, and an area to be detected aligns to the first opening; the test paper is subjected to second pushing of the pushing mechanism, passes over the elastic piece and gets away from the second opening. According to the rotary table device and the full-automatic immune fluorescence analyzer with the same, test paper sample adding and automation of the whole detection process are achieved, a single form of queue waiting is not needed, and the work efficiency and stability are improved.
Owner:SUZHOU TOPMEDLAB MEDICAL SCI & TECH CO LTD
X-ray fluorescence analysis method, x-ray fluorescence analysis program, and x-ray fluorescence spectrometer
ActiveUS20200003712A1Same effectSame operationMaterial analysis using wave/particle radiationOptical spectrometerPhysical chemistry
An X-ray fluorescence analysis method according to an FP method uses a predefined theoretical intensity formula in a standard sample theoretical intensity calculation step for obtaining a sensitivity constant and in an unknown sample theoretical intensity calculation step during iterative calculation. In the formula, only in an absorption term relating to absorption of X-rays, a mass fraction of each component is normalized so that a sum of the mass fractions of all components becomes 1.
Owner:RIGAKU CORP
Hydrogel microsphere fluorescence sensor as well as preparation method and application thereof
InactiveCN105784664AHigh sensitivitySimple stepsFluorescence/phosphorescenceHydrogel microspheresFluorescence microscope
The invention discloses a hydrogel microsphere fluorescence sensor as well as a preparation method and application thereof. By use of the advantages of a hydrogel material, the hydrogel material is applied to wrapping a fluorescence probe; the hydrogel is fully mixed with the fluorescence probe, and the mixture is directly processed into a fluorescence sensor system which has a microsphere structure and is applicable to fluorometric analysis and detection by virtue of an ultraviolet polymerization reaction; successfully cured hydrogel micropheres have favorable flexible structures and can not release hydrogel monomers without influencing detection; due to a net-shaped structure, the wrapped fluorescence probe is quite stably dispersed in the hydrogel with out leaking through the micropheres; detection substances can freely enter into or move out of the whole microsphere fluorescence sensor system; in combination with a fluorescence microscope, the hydrogel microsphere fluorescence sensor is capable of quite conveniently analyzing and detecting ions, molecules and other relevant substances; the hydrogel microsphere fluorescence sensor is a microsphere which is formed by wrapping the fluorescence probe with hydrogel and has a diameter of 300-500 mu m.
Owner:NANJING UNIV OF TECH
X-ray multiple spectroscopic analyzer
InactiveUS8903040B2X-ray spectral distribution measurementMaterial analysis using radiation diffractionAnalysis dataX-ray
Owner:RIGAKU CORP
Method of normalizing a fluorescence analyzer
A method of normalizing an analyzer response value of a fluorescence analyzer is provided. The method includes measuring an excitation spectrum of the analyzer and measuring an emission sensitivity spectrum of the analyzer. Next, a normalization factor based at least in part upon the excitation spectrum of the analyzer and the emission sensitivity spectrum of the analyzer is determined. The sample is then analyzed to obtain an uncorrected analyzer response value. A normalized analyzer response value is calculated based at least in part upon the uncorrected analyzer response value and the normalization factor.
Owner:IDEXX LABORATORIES
Homogeneous time-resolved fluorescence analysis method of alpha-fetalprotein
InactiveCN102353790AHigh quantum yieldGood water solubilityBiological testingFluorescence/phosphorescenceFluorometric AnalysisAnalysis method
The invention relates to fields of biochemical analysis, and concretely relates to a homogeneous time-resolved fluorescence analysis method of alpha-fetalprotein. The method comprises the following steps: 1, preparing a quantitative standard curve: incubating an HFRFA energy receptor, an HFRFA energy donor and an alpha-fetalprotein standard substance together, and carrying out time-resolved fluorescence detection and analysis to obtain the standard curve between the concentration of the alpha-fetalprotein and the fluorescence value; and 2, detecting a sample: incubating the HFRFA energy receptor, the HFRFA energy donor and the alpha-fetalprotein sample to be detected together, carrying out time-resolved fluorescence detection and analysis, comparing the fluorescence value obtained through detecting the sample with the standard curve obtained in step 1, and calculating to obtain the concentration of the alpha-fetalprotein sample to be detected. The method of the invention, which has the advantages of strong specificity and high detection sensitivity, has important meanings in the biochemical analysis of clinical molecular diagnosis and food detection.
Owner:SOUTHERN MEDICAL UNIVERSITY
Fluorescence-based analysis of biopolymers using nanopores
ActiveUS20170058336A1Microbiological testing/measurementFluorescence/phosphorescenceBiopolymerOptical measurements
Described herein are systems for analysis of biopolymers and complexes containing biopolymers based on optical measurement of ion flux through pores. Also described are methods of using such devices for analysis of biopolymers and complexes containing biopolymers, including methods of determining the nucleotide sequences of polynucleotides.
Owner:NORTHEASTERN UNIV
Fluorescent labeling compound
InactiveUS7955859B2Sufficient fluorescence intensityLong fluorescence lifetimeComponent separationMicrobiological testing/measurementCompound aPyrazine
Owner:JAPAN SCI & TECH CORP
Vitrification reagent for preparing glass melt piece for X fluorescence analysis and use method thereof
ActiveCN101509847AShorten the analysis cycleQuick analysisMaterial analysis using wave/particle radiationPreparing sample for investigationPlatinumVitrification
The invention provides a glass reagent for preparing glass fuse pieces used for metallurgical flux X-ray fluorescence analysis, consisting of anhydrous lithium tetraborate or mixture of anhydrous lithium tetraborate and lithium metaborate, and boric acid. A method for preparing the glass fuse pieces includes: firstly adding the anhydrous lithium tetraborate or the mixture of anhydrous lithium tetraborate and lithium metaborate in the metallurgical flux, then fusing at a high temperature for 12-15mins in a platinum yellow pot, preparing the glass fuse pieces after cooling; or fully mixing the boric acid with the anhydrous lithium tetraborate or the mixture of the anhydrous lithium tetraborate and lithium metaborate in advance, preparing the fast fused glass reagent and then mixing with the metallurgical flux, then fusing at the high temperature for 12-15mins in the platinum yellow pot, and preparing the glass fuse pieces after cooling. The glass reagent has accurate and stable analysis results, and greatly shortens the analysis period of the metallurgical fusing agent.
Owner:MAANSHAN IRON & STEEL CO LTD
Fluorescence analysis optical multiplexer/demultiplexer, fluorescence analysis optical module, fluorescence analyzer, fluorescence/photothermal conversion spectroscopic analyzer, and fluorescence analysis chip
ActiveUS20060109465A1High strengthEffective blockingRadiation pyrometryMaterial thermal coefficient of expansionOptical ModuleMultiplexer
A fluorescence analysis optical multiplexer / demultiplexer, a fluorescence analysis optical module, a fluorescence analyzer, a fluorescence / photothermal conversion spectroscopic analyzer, and a fluorescence analysis chip, according to which LIF analysis can be carried out easily and with high sensitivity, and moreover photothermal conversion spectroscopic analysis can be carried out easily and simultaneously with the LIF analysis. A microchemical system 100 as the fluorescence analyzer is comprised of a fluorescence analysis optical module 100a, a probe 50 that condenses exciting light onto a sample solution in a channel 204 inside a fluorescence analysis chip 20, and a sample stage 21 on which the fluorescence analysis chip 20 is mounted. The fluorescence analysis optical module 100a is comprised of an exciting light source 53 that outputs exciting light of dominant wavelength λ1, a fluorescence analysis optical multiplexer / demultiplexer 56 for use in the fluorescence analyzer which analyzes fluorescence of dominant wavelength λ2 (λ2>λ1) emitted from the sample upon the sample being irradiated with the exciting light via the probe 50, a detector 54 that receives the fluorescence, an optical fiber 106 that connects the fluorescence analysis optical multiplexer / demultiplexer 56 to the exciting light source 53, an optical fiber 107 that connects the fluorescence analysis optical multiplexer / demultiplexer 56 to the probe 50, and an optical fiber 108 that connects the fluorescence analysis optical multiplexer / demultiplexer 56 to the detector 54. The channel 204 through which the sample solution is passed is coated with a reflective metal film 205.
Owner:NIPPON SHEET GLASS CO LTD
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