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Mira DS Basic (US Only)The Metrohm Instant Raman Analyzer (MIRA) DS is a ruggedized, high-performance, portable Raman spectrometer for rapid, nondestructive determination of illegal materials, e.g. drugs, explosives, base materials, and hazardous substances. Despite the small size of the instrument, the MIRA DS is highly ruggedized and features a high-efficiency spectrograph equipped with our unique Orbital-Raster-Scan (ORS) technology.MIRA DS Basic package allows the user to customize the MIRA DS to meet their needs. The MIRA Basic package is a starter package that contains the basic components required for operating the MIRA DS. The MIRA DS basic package includes a calibration standard, a USB cable, and the LWD attachment for analyses in bottles and several bags. Laser Class 3B operation. MIRA DS supports Metrohm handheld Raman libraries.
2.926.0020
MIRA DS AdvancedThe Metrohm Instant Raman Analyzer (MIRA) DS is a ruggedized, high-performance, handheld Raman spectrometer used for rapid, nondestructive determination of illicit materials, e.g. drugs, explosives, starting materials, and hazardous agents. Despite the small size of the instrument, MIRA DS is extremely rugged and features a high-efficiency spectrograph equipped with our unique Orbital-Raster-Scan (ORS) technology.The Advanced package includes a calibration standard, universal attachment for analyses in bottles or bags or for direct analysis, and the right-angle attachment, ideal for running samples on a surface and/or in a bag. Class 3B operation. MIRA DS supports Metrohm handheld Raman libraries.
2.926.0025
MIRA DS Advanced (US only)The Metrohm Instant Raman Analyzer (MIRA) DS is a ruggedized, high-performance, handheld Raman spectrometer used for rapid, nondestructive determination of illicit materials, e.g. drugs, explosives, starting materials, and hazardous agents. Despite the small size of the instrument, MIRA DS is extremely rugged and features a high-efficiency spectrograph equipped with our unique Orbital-Raster-Scan (ORS) technology.The Basic package includes a calibration standard, universal attachment for analyses in bottles or bags or for direct analysis, and the right-angle attachment, ideal for running samples on a surface and/or in a bag. Class 3B operation. MIRA DS supports Metrohm handheld Raman libraries.
2.926.0030
MIRA DS FlexThe MIRA DS Flex package allows the user to customize the MIRA DS to meet their needs. The Flex package includes the basic components needed to operate the MIRA DS without sampling attachments. At least one sampling attachment is required for operation.The MIRA DS Flex package includes a calibration standard and a USB cable. Class 3B operation. MIRA DS supports Metrohm handheld Raman libraries.
2.926.0035
MIRA DS Flex (US only)MIRA DS Flex package allows the user to customize the MIRA DS to meet their needs. The Flex package includes the basic components needed to operate the MIRA DS without sampling attachments. At least one sampling attachment is required for operation.The MIRA DS Flex package includes a calibration standard, USB cable and laser safety goggles. Class 3B operation. MIRA DS supports Metrohm handheld Raman libraries.
2.926.0110
MIRA XTR BasicMIRA XTR is an alternative for high power 1064 nm systems. Powered by advanced computational processing, MIRA XTR uses a more sensitive 785 nm laser light along with XTR algorithms to eXTRact the Raman data from the sample fluorescence. MIRA XTR also features Orbital Raster Scanning (ORS) to provide better coverage of the sample increasing the accuracy of the results.The Basic package is a starter package that contains the basic components required for operating the MIRA XTR. The Basic package includes a Calibration Standard and Intelligent Universal Attachment. Class 3B operation. MIRA XTR supports Metrohm handheld Raman libraries.
2.926.0120
MIRA XTR AdvancedMIRA XTR is an alternative for high power 1064 nm systems. Powered by advanced AI and Machine Learning, MIRA XTR uses a more sensitive 785 nm laser along with XTR algorithms to eXTRact the Raman data from the sample fluorescence. MIRA XTR also features Orbital Raster Scanning (ORS) to provide better coverage of the sample increasing the accuracy of the results.MIRA XTR Advanced package includes a Calibration Standard, Intelligent Universal Attachment, Right-angle Attachment, Vial Attachment, and MIRA SERS Attachment. A complete package for any type of analysis. Class 3B operation. MIRA XTR supports Metrohm handheld Raman libraries.
2.927.0010
MIRA P BasicThe Metrohm Instant Raman Analyzer (MIRA) P is a high-performance, portable Raman spectrometer used for rapid, nondestructive determination and verification of different material types, such as pharmaceutical APIs and auxiliary materials. Despite the small size of the instrument, the MIRA P is highly ruggedized and features a high-efficiency spectrograph equipped with our unique Orbital-Raster-Scan (ORS) technology. The MIRA P complies with the directives of FDA 21 CFR Part 11 in their entirety.MIRA P Basic package allows the user to customize the MIRA P to meet their needs. The MIRA P Basic package is a starter package that contains the basic components required for operating the MIRA P.The Basic package contains the MIRA calibration/verification accessories, the USP library, and the LWD attachment for analyses in bottles or bags. Laser Safety Class 3B operation.
2.927.0020
MIRA P AdvancedThe Metrohm Instant Raman Analyzer (MIRA) P is a high-performance, handheld Raman spectrometer used for rapid, nondestructive determination and verification of different material types, such as Pharmaceutical APIs and excipients. Despite the small size of the instrument, the MIRA P has a ruggedized design and features a high-efficiency spectrograph design equipped with our unique Orbital-Raster-Scan (ORS) technology. The MIRA P is fully compliant with FDA 21 CFR Part 11 regulations. The Advanced Package includes an attachment lens for analyzing materials directly or through containers (laser class 3b), as well as a vial holder attachment for analyzing samples contained in glass vials (laser class 1).
2.927.0030
MIRA P FlexThe MIRA P Flex package allows users to customize MIRA P to meet their needs. The Flex package includes the basic components needed to operate the MIRA P without sampling attachments. At least one sampling attachment is required for operation. The MIRA P Flex package includes the USP library, calibration/verification accessories, and a USB cable. Class 3B operation.
- AN-C-164AN-C-164Amine analysis in gas scrubber solutions from refineries with direct conductivity detection
In natural gas production, the removal of contaminants, and in particular acidic gases such as H2S and CO2, is exceptionally important. These acidic gases are removed in the amine wash through chemical treatment with amines or alkanol amines. This application shows a convenient and precise analysis with the separation of various amines and standard cations on a column of the Metrosep C 6 - 250/4.0 type with subsequent direct conductivity detection.
- AN-C-165AN-C-165Triethylamine in aqueous 1,3,5-trioxane solution with direct conductivity detection
1,3,5-trioxane is a heterocyclic compound formed by trimerization of formaldehyde. Trioxane is used for the production of polyformaldehyde plastics such as poly(oxymethylene) (POM) and solid fuels. Aqueous 1,3,5-trioxane solutions frequently contain trace triethylamine that requires quantification. This is performed on the Metrosep C 3 - 250/4.0 column with subsequent direct conductivity detection.
- AN-C-166AN-C-166Parallel cation (and anion) analysis applying the Metrohm IC Driver 2.0 for Empower
Parallel anion and cation analysis is typically used when both anions and cation have to be analyzed in a sample. Here, the cation part of such an analysis is given. The sample is injected to the cation channel by the injector of the IC instrument bypassing the injector on the 889 IC Sample Center. The whole system is controlled by Empower applying the Metrohm IC Driver 2.0. For anion analysis, see AN-S-350.
- AN-C-167AN-C-167Quality test of an automatic and direct 1:2000 dilution applying Inline Dilution Techique
Automatic dilution reduces manual work and improves the reproducibility and accuracy of the results. So far, the Inline Dilution Technique (MIDT) has been tested in a range of max. 1:100. Using a dedicated sample needle this range is enlarged significantly. This AN shows the performance of an Inline Dilution with a factor of 1:2000 as well as a comparison of manual and inline dilution for a dilution factor of 1:1000.
- AN-C-168AN-C-168Determination of ammonium in tobacco after sulfuric acid extraction
Ammonia is present in tobacco – either naturally or added – and is realesed during smoking. Ammonia increases the appeal of smoking, and is therefore considered to increase the addictive potential. The determination of ammonium in tobacco is performed by acid extraction and ion chromatographic separation followed by non-suppressed conductivity detection.
- AN-C-169AN-C-169Determination of cations in tobacco additives
Tobacco additives may contain cations like ammonium (see AN-C-168) as well as other cations as counter ions of organic acids. These additives include components to retain moisture and flavor of the tobacco. Ammonium is added to increase the appeal of smoking, and is therefore considered to increase the addictive potential. The determination of cations in tobacco additives is performed by ion chromatographic separation followed by non-suppressed conductivity detection.
- AN-C-170AN-C-170N-methyldiethanolamine, piper-azine and standard cations in scrubber solutions
N-methyldiethanolamine and piperazine are used in scrubber solutions, e.g., in the natural gas process. Testing this type of samples by ion chromatography requires a good resolution and the separation of amines from standard cations. The separation is achieved on a Metrosep C 4 - 150/4.0 column applying direct conductivity detection.
- AN-C-171AN-C-171N-methyldiethanolamine and piperazine in scrubber solution
Before the liquefaction process of the natural gas, carbonate and hydrogen sulfide need to be removed through a scrubber solution containing piperazine and N-methyl diethanolamine (MDEA). The concentration ratio of the two components is determined by ion chromatography on a Metrosep C 4 - 150/4.0 column applying direct conductivity detection.
- AN-C-172AN-C-172Cations in snow from an open field
Cation content in snow is greatly dependent on sampling site. Samples from remote areas are expected to exhibit lower cation concentrations. This application shows the analysis of a snow sample from an open field in an agricultural zone. Separation is performed on a microbore Metrosep C 6 - 100/2.0 column with direct conductivity detection. The relatively high ammonia content can be explained by animal husbandry in the vicinity of the sampling site.
- AN-C-173AN-C-173Cations in roadside snow
Cation content in snow is greatly dependent on sampling site. Roadside samples are likely to exhibit a high sodium content caused by the use of road salt. This application shows the analysis of a snow sample from a roadside. Separation is performed on a microbore Metrosep C 6 - 250/2.0 column with direct conductivity detection. The 250 mm column was selected due to the large difference in concentrations between sodium and ammonia. This condition enables a baseline separation of the two cations.
DRP-110PHEN-U50
Screen-printed carbon electrodes modified with phenanthrolineSPCEs modified with 1,10-phenanthroline-5,6-dione are ideal for detecting NADH evolution in enzymatic dehydrogenase based sensors
DRP-110PLYS-U50
Poly-L-Lysine modified Screen-Printed Carbon ElectrodeThe screen-printed carbon electrodes modified with Poly-L-Lysine have been designed for cell culture and protein anchoring
DRP-110PPYR-U50
Polypyrrole modified screen-printed carbon electrodeMesoporous Carbon modified Screen-Printed Carbon Electrode designed for the development of (bio) sensors with an enhanced electrochemical active area. Recommended for ammonia gas, biological molecules, detection of pollutants, anions detection among other applications in multiple sectors and fields.
DRP-110PTP-U50
Screen-printed carbon electrodes modified with platinum particlesPlatinum particles modified SPEs are ideal for the determination of hydrogen peroxide at a low detection potentials. These electrodes are recommended for the development of enzymatic biosensors based on oxidases.
DRP-110RHP-U50
Screen-printed carbon electrodes modified with rhodium particlesRhodium particles modified SPCEs can be used for different electrocatalytical applications such as monitorization of hydrogen peroxide, hydrogen evolution, oxygen reduction reaction, formic acid or methanol oxidation reactions, halogens or reduction of inorganic nitrogen, as nitrate or nitric oxide.
DRP-110SFT-U50
Surface treated screen-printed carbon electrode110SFT has a carbon working electrode with a surface treatment that allows better aqueous wetting and homogenisa-tion of the working surface. This modification makes these electrodes ideal for use as substrates when a homogeneous surface is required, for example, in catalytic process research or impedance measurements, among other applications.
DRP-110TIO2-U50
Screen-printed carbon electrode modified with AnataseDisposable screen-printed carbon electrodes modified with anatase. Suitable for catalytical and photocatalytical applications.Photocurrents are obtained when irradiating with an UV LED light into de working electrode. Energy of beam light is employed in promoting an electron from the valence gap to the conduction band. While the electrode can be involved in reductions reaction, the positive hole left behind can be involved in oxidation reactions making these electrodes suitable to perform switchable redox reactions controlled by a source of UV light
DRP-110ZNO-U50
Screen-printed carbon electrode modified with zinc oxideDisposable screen-printed carbon electrodes modified with zinc oxide. Suitable for catalytical and photocatalytical applications.Photocurrents are obtained when irradiating with an UV LED light into de working electrode. Energy of beam light is employed in promoting an electron from the valence gap to the conduction band. While the electrode can be involved in reductions reaction, the positive hole left behind can be involved in oxidation reactions making these electrodes suitable to perform switchable redox reactions controlled by a source of UV light
DRP-11L-U75
Screen-Printed Carbon Electrode (Aux.:C;Ref.:Ag/AgCl)Screen-Printed Carbon Electrode (Aux.:C;Ref.:Ag/AgCl)
DRP-4W110AUP-U20
4 WEs screen-printed Gold particles/Carbon electrode (1 Aux.: C; 1 Ref.: Ag)
6.06073.619
Raman spectral library of inorganic materialsRaman spectra of inorganic materials (>960 spectra; extracted from the 6.6071.617 spectral library).
6.06073.620
Raman spectral library of food additivesRaman spectra of food additives, including FDA-controlled substances. Additionally, spectra of indirect food additives and substances that come into contact with foodstuffs, such as packaging materials and associated processing chemicals (> 1,070 spectra).
6.06073.621
Raman spectral library of biochemicalsRaman spectra of biochemicals, including vitamins, resins, starches, glycerins, fatty acids, sugars, carbohydrates, proteins, and peptides (> 1,900 spectra).
6.06073.622
Raman spectral library of flavors and scentsRaman spectra of flavors, scents, and other substances that are used for manufacturing cosmetics and fragrances (> 1,030 spectra).
6.07311.010
Boat Introduction Module, quartzBoat Introduction Module for the Combustion IC for use with the quartz combustion tube. This module uses a sample boat to transfer samples into the oven for combustion.It also includes a pair of tweezers and a petri dish for handling the sample boat.
6.07311.020
Boat Introduction Module, ceramicBoat Introduction Module for the Combustion IC for use with the ceramic combustion tube. This module uses a sample boat to transfer samples into the oven for combustion.It also includes a pair of tweezers and a petri dish for handling the sample boat.
6.07311.030
Liquid Introduction Module, manual (TEI)The Liquid Introduction Module enables the combustion of liquid samples by using an automatic syringe to inject the sample directly. The module can be used for samples with a boiling point < 420 °C.This module can also guide gaseous or LPG samples into the oven from the GLS Sampler CIC.
6.07311.040
Liquid Introduction Module, automated (TEI)The Liquid Introduction Module enables the combustion of liquid samples by using the Liquid Autosampler CIC to inject the sample directly. The module can be used for samples with a boiling point < 420 °C.This module can also guide gaseous or LPG samples from the GLS Sampler CIC into the oven.
6.07311.100
Quartz combustion tube (TEI)Quartz combustion tube for the Combustion Oven (TEI).
6.07311.110
Ceramic combustion tube (TEI)Ceramic combustion tube for the Combustion Oven (TEI).
