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OMNIS Sample Robot OvenMain module for setting up an OMNIS Sample Robot Oven in size S. This module is equipped with the module and rack plate. It is already equipped with the main lift and a gripper. It must be equipped with sample racks and at least 1 oven module in order to use it to set up a functioning Sample Robot Oven.
2.1030.1010
OMNIS Sample Robot Oven 1 x 6 mLOMNIS Sample Robot Oven with 1 oven module 6 mL and extensive accessories for the direct transition to fully automated thermal sample preparation with subsequent water determination in accordance with Karl Fischer. The system provides space in 2 sample racks for 100 sample beakers of 6 mL each. This modular system is supplied completely installed and can thus be put into operation in a very short time. The system can also be extended upon request to include an additional oven module, thus doubling the throughput.
2.1030.1020
OMNIS Sample Robot Oven 2 x 6 mLOMNIS Sample Robot Oven with 2 oven modules 6 mL and extensive accessories for the direct transition to fully automated thermal sample preparation with subsequent water determination in accordance with Karl Fischer. The system provides space in 2 sample racks for 100 sample beakers of 6 mL each. This modular system is supplied completely installed and can thus be put into operation in a very short time.
2.1030.1030
OMNIS Sample Robot Oven 1 x 8 mLOMNIS Sample Robot Oven with 1 oven module 8 mL and extensive accessories for the direct transition to fully automated thermal sample preparation with subsequent water determination in accordance with Karl Fischer. The system provides space in 2 sample racks for 100 sample beakers of 8 mL each. This modular system is supplied completely installed and can thus be put into operation in a very short time. The system can also be extended upon request to include an additional oven module, thus doubling the throughput.
2.1070.0010
OMNIS NIR Analyzer LiquidNear-infrared spectrometer for liquid samples. Developed and produced in accordance with Swiss quality standards, the OMNIS NIR Analyzer is the near-infrared spectroscopy (NIRS) solution for routine analysis along the entire production chain. Its application of the latest technologies and its integration in the modern OMNIS Software are reflected in its speed, operability, and flexible utilization of this NIR spectrometer.Overview of the advantages of the OMNIS NIR Analyzer Liquid:Measurements of liquid samples in less than 10 seconds; Temperature control on the sample from 25–80 °C; Automatic detection of the insertion and removal of the sample vessel; Simple integration in an automation system or link with additional analysis technologies (titration); Supports numerous sample vessels with different path lengths;
2.1071.0010
OMNIS NIR Analyzer SolidNear-infrared spectrometer for solid and viscous samples. Developed and produced in accordance with Swiss quality standards, the OMNIS NIR Analyzer is the near-infrared spectroscopy (NIRS) solution for routine analysis along the entire production chain. Its application of the latest technologies and its integration in the modern OMNIS Software are reflected in its speed, operability and flexible utilization of this NIR spectrometer.Overview of the advantages of the OMNIS NIR Analyzer Solid:Measurements of solids and viscous samples in less than 10 seconds; Automated multi-position measurements for reproducible results, even with nonhomogeneous samples; Simple integration in an automation system or link with additional analysis technologies (titration); Supports numerous sample vessels;
2.1072.0010
OMNIS NIR Analyzer Liquid/SolidNear-infrared spectrometer for liquid, solid, and viscous samples. Developed and produced in accordance with Swiss quality standards, the OMNIS NIR Analyzer is the near-infrared spectroscopy (NIRS) solution for routine analysis along the entire production chain. Its application of the latest technologies and its integration in the modern OMNIS Software are reflected in its speed, operability and flexible utilization of this NIR spectrometer.Overview of the advantages of the OMNIS NIR Analyzer Liquid/Solid:Measurements of fluid, solid, and viscous samples in less than 10 seconds; Fast sequential measurement of liquid and solid samples without conversion of the system; Simple integration in an automation system or link with additional analysis technologies (titration); Supports numerous sample vessels; Highlights of measurements of liquids:Temperature control on the sample from 25–80 °C; Automatic detection of the sample; Highlights of measurements of solids:Automated multi-position measurements for reproducible results, even with nonhomogeneous samples;
2.1073.0010
OMNIS Sample Robot S – NIROMNIS Sample Robot S – NIR for the direct transition to fully automated spectroscopy. The system provides space for 1 sample rack for up to 77 vials with diameters of 8–28 mm.The OMNIS Sample Robot S – NIR supports the analyses of both liquid and solid samples.
2.1074.0010
OMNIS Sample Robot M – NIR2.135.0205
Balance for 864 Robotic Balance Sample Processor, 115VThe balance (Precisa) has a special construction for usage below the sample rack 6.2068.010 of the 864 Robotic Balance Sample Processor. The power supply is for 115V.
- AB-070AB-070Polarographic determination of nitrate in water samples, soil and plant extracts, vegetable juices, meat and sausages, fertilizers, liquid manure, etc.
The photometric determination of nitrate is limited by the fact that the respective methods (salicylic acid, brucine, 2,6-dimethyl phenol, Nesslers reagent after reduction of nitrate to ammonium) are subject to interferences. The direct potentiometric determination using an ion-selective nitrate electrode causes problems in the presence of fairly large amounts of chloride or organic compounds with carboxyl groups. The polarographic method, on the other hand, is not only more rapid, but also practically insensitive to chemical interference, thus ensuring more accurate results. The limit of quantification depends on the matrix of the sample and is approximately 1 mg/L.
- AB-071AB-071pH value and oxidation reduction potential in soil samples – Determination according to EN 15933, ISO 10390, and ASTM D4972
The pH value and oxidation reduction potential (ORP) of soil provide important information about soil properties, such as solubility of minerals and ion mobility. Knowledge of these properties allows making predictions concerning plant growth, bacterial activity, nutrients that may be needed, possible corrosive effects on buildings, etc.Here, the determination of the pH value is described according to ISO 10390, EN 15933 and ASTM D4972. Th oxidation reduction potential determination is carried out in a suspension.
- AB-072AB-072Potentiometric determination of mercury or silver in the presence of halides
Halides interfere with most determinations of mercury or silver. However, if mercury or silver is titrated with sulfide ions, extremely insoluble sulfides are formed.A simple method is described that allows the direct titration of mercury(II) or silver(I) compounds in the presence of halides. The potentiometric titration takes place under alkaline conditions using thioacetamide as the titrant after formation of the EDTA complex.Organic compounds that are insoluble in alkaline EDTA can also be titrated after a Schoeniger digestion.
- AB-073AB-073Polarographic analysis – half-wave potentials of organic substances
This Bulletin is a supplement to Application Bulletin no. 36 (Half-wave potentials of inorganic substances) in the sense that the half-wave potentials of 100 different organic substances are listed. At the same time the supporting electrolytes used and the limits of determination are given.The various substances are listed in alphabetical order. The most important polarographically active functional groups are taken into consideration. This means that substances for related structures can also be determined polarographically in the same or similar supporting electrolytes, although they may not appear in the list.Unless otherwise stated, the half-wave potentials refer to a temperature of 20 °C, and the potentials are given in volts, measured with a sat. KCI-Ag/AgCl electrode assembly.The determination limits give the smallest concentrations which can be measured without risking serious errors in the results. In all cases, the limit of detection lies below the limit of determination.
- AB-074AB-074Determination of antimony, bismuth, and copper by anodic stripping voltammetry
This Application Bulletin describes the voltammetric determination of the elements antimony, bismuth, and copper. The limit of detection for the three elements is 0.5 ... 1 µg/L.
- AB-076AB-076Polarographic determination of nitrilotriacetic acid (NTA) and ethylenediaminetetraacetic acid (EDTA) according to DIN 38413 part 5
According to the described method, NTA and EDTA can be determined in mass concentrations of 0.05 mg/L up to 25 mg/L in polluted water and wastewater.At first NTA and EDTA are converted to the corresponding Bi complexes by addition of Bi3+ ions at a pH value of 2.0. As these Bi complexes have significantly different peak potentials, they can be determined simultaneously by DP polarography. The interfering anions nitrite, sulfite, and sulfide are removed from the sample by acidification and purging. Interfering cations are removed by cation exchange; any NTA or EDTA heavy metal complexes present in the sample are disintegrated during this procedure. To remove surfactants and other organic components interfering with the analysis, the sample solution is run through a column filled with non-polar adsorber resin.
- AB-077AB-077Volumetric water content determination according to Karl Fischer – Tips and tricks for volumetric Karl Fischer titration
This Application Bulletin gives an overview of the volumetric water content determination according to Karl Fischer. Amongst others, it describes the handling of electrodes, samples, and water standards. The described procedures and parameters comply with the ASTM E203.
- AB-082AB-082Determination of fluoride with an ion-selective electrode
This Bulletin describes fluoride determination in various matrices with the help of the ion-selective fluoride electrode (F-ISE). The F-ISE is comprised of a lanthanum fluoride crystal and exhibits a response in accordance with the Nernst equation across a wide range of fluoride concentrations.The first part of this Bulletin contains notes regarding the handling and care of the electrode and the actual fluoride determination itself. The second part demonstrates the direct determination of fluoride with the standard addition technique in table salt, toothpaste and mouthwash.
- AB-083AB-083Sodium analysis by ion-selective electrode
This document explains how to measure Na ion concentration in diverse matrices with a sodium ion-selective electrode (Na-ISE) using direct measurement and standard addition.
- AB-084AB-084Titrimetric analysis of vinegar
The quality of a vinegar depends on various factors. Since the contents of the individual components vary widely even from bottle to bottle, it is impossible to give average values. This Bulletin describes the determination of the following parameters in vinegar: pH value, total titratable acid, volatile, and non-volatile acid, free mineral acid as well as free and total sulfurous acid.
6.6059.942
MagIC Net 4.2 Update without licenseUSB flash drive with the installation and documentation for updating to MagIC Net 4.2 (without license)
6.6061.010
Titrino plus methods USB StickContains the FOOD PAC, WINE PAC and OIL PAC methods for direct import into the Titrino plus.
6.6063.001
tiBase multi: 1 additional licenseOne additional license for tiBase multi.
6.6063.002
tiBase multi: 5 additional licensesFive additional licenses for tiBase multi.
6.6063.003
tiBase multi: 10 additional licensesTen additional licenses for tiBase multi.
6.6063.901
Demo CD for tiBase 1.1Demo CD for tiBase. Test version for 30 days.
6.6064.010
USB Memory Stick for 900 Touch Control6.6065.001
viva Multi 1.x/2.x: 1 additional licenseOptional license for viva Multi. The serial number of viva Multi is required when ordering this item!
6.6065.002
viva Multi 1.x/2.x: 5 additional licensesOptional licenses for viva Multi. The serial number of viva Multi is required when ordering this item!
6.6065.003
viva Multi 1.x/2.x: 10 additional licensesOptional licenses for viva Multi. The serial number of viva Multi is required when ordering this item!
6.00349.100
Generator electrode without diaphragmGenerator electrode without diaphragm for coulometric Karl Fischer titrations, SGJ 29/22. This generator electrode is well-suited for most applications where the sample is highly soluble in alcohol.This electrode has a cable connection angled upwards.
6.00350.100S
Separate Ag ring electrode with Ag2S coatingThis silver ring electrode must be used in combination with a reference electrode (c(KNO3) = 1 mol/L as reference electrolyte) and is suitable for precipitation titrations (titrant silver nitrate), e.g. of: chloride, bromide, iodide; sulfides; hydrogen sulfide; mercaptans; cyanides; The permanently fused-in silver ring is resistant to highly concentrated acids and saline solutions and is coated with sulfide (Ag2S) for increased sensitivity and a better limit of detection.
6.00353.100
Double Au ring electrodeGlass shaft electrode with two gold rings which are polarized for redox titrations (bivoltammetric titration).This electrode is well suited for vitamin C determination and can be easily cleaned even from very sticky samples.
6.00401.300
dPt TitrodeDigital, combined platinum ring electrode for OMNIS with a pH glass membrane as reference electrode.This maintenance-free electrode is suitable for redox titrations when the pH value remains constant, e.g.: Iodometry; Chromatometry; Cerimetry; Permanganometry; This electrode is stored in distilled water.dTrodes can be used on OMNIS Titrators.
6.00402.300
dAg ring electrodeDigital, combined silver ring electrode for OMNIS with fixed ground-joint diaphragm.This electrode is suitable for precipitation titrations where the pH value varies (titrant silver nitrate) of, e.g. Chloride, Bromide, Iodide; Sulfides; Hydrogen sulfide; Mercaptans; Cyanides; The fixed ground-joint diaphragm is insensitive to contamination. c(KNO3) = 1 mol/ L is used as reference electrolyte and for storage.dTrodes can be used on OMNIS Titrators.
6.00402.300S
dAg ring electrode with Ag2S coatingDigital, combined silver ring electrode for OMNIS with fixed ground-joint diaphragm. The permanently fused-in silver ring is coated with sulfide (Ag2S) for higher sensitivity and a better limit of detection. This electrode is suitable for precipitation titrations where the pH value varies (titrant silver nitrate) of, e.g.:Chloride, Bromide, Iodide; Sulfides; Hydrogen sulfide; Mercaptans; Cyanides; The fixed ground-joint diaphragm is insensitive to contamination. c(KNO3) = 1 mol/ L is used as reference electrolyte and for storage.dTrodes can be used on OMNIS Titrators.
6.00403.300
dPt ring electrodeDigital, combined platinum ring electrode for OMNIS with fixed ground-joint diaphragm.This electrode is suitable for redox titrations when the pH value varies, e.g.: Oxygen content according to Winkler; Determination of hydrogen peroxide with KMnO4; Diazotization titrations; The fixed ground-joint diaphragm is insensitive to contamination. c(KCl) = 3 mol/ L is used as reference electrolyte and for storage.dTrodes can be used on OMNIS Titrators.
6.00404.300
dAg TitrodeDigital, combined silver ring electrode for OMNIS with a pH glass membrane as reference electrode.This maintenance-free electrode is suitable for precipitation titrations where the pH value remains constant (titrant silver nitrate), e.g. of Chloride, Bromide, Iodide; Sulfides; Hydrogen sulfide; Mercaptans; Cyanides; This electrode is stored in distilled water.dTrodes can be used on OMNIS Titrators.
6.00404.300S
dAg Titrode with Ag2S-coatingDigital, combined silver ring electrode for OMNIS with a pH glass membrane as reference electrode. The silver ring is coated with sulfide (Ag2S) to increase the sensitivity and result in a better limit of determination.The maintenance-free electrode is suitable for precipitation titration with a constant pH value (titrant: silver nitrate), e.g.Chloride, Bromide, Iodide; Sulfide; Dihydrogen sulfide; Mercaptane; Cyanide; This electrode is stored in deionized water.dTrodes can only be used with OMNIS titrators and titration modules with digital measuring interface.
6.00430.100BR
Ag Titrode with AgBr coatingCombined silver ring electrode with a pH glass membrane as reference electrode.The silver ring is coated with bromide (AgBr) for a higher sensitivity and a better limit of detection.This maintenance-free electrode is suitable for precipitation titrations when the pH value remains constant (titrant silver nitrate), for example of: chloride, bromide, iodide; sulfides; hydrogen sulfide; mercaptans; cyanides; This electrode is stored in distilled water.
- Oct 31, 2022Raman spectroelectrochemistry from India to Spain: History and applications
One of the most interesting spectroelectrochemical techniques combines the fields of electrochemistry and Raman spectroscopy. Raman spectroelectrochemistry provides users with two different signals from the same experiment, acting as a powerful tool to collect even more knowledge about the analyzed system. Raman spectroelectrochemistry experiments are easily performed using SPELEC RAMAN, the only instrument on the market dedicated to performing such experiments.
- Nov 18, 2024Ion chromatography for the pharmaceutical industry
The principles of ion chromatography are introduced, then some applications and benefits of using IC for pharma analysis according to USP General Chapter <1065>.
- Jun 4, 2025Understanding the role of eluent in ion chromatography
This article explores the importance of eluent selection and preparation, highlighting key considerations that ensure reliable and robust ion chromatography measurements.
- Apr 28, 2025Basics of spectroelectrochemistry
Spectroelectrochemistry (SEC) combines electrochemistry and spectroscopy to simultaneously record optical and electrochemical signals. This article defines SEC and highlights its advantages.
- Mar 31, 2025How does X-ray fluorescence work?
X-ray fluorescence (XRF) is a nondestructive technique for identifying and quantifying elements in solids, liquids, and powders. Learn about XRF and how it works in this blog article.
- Dec 16, 2024Introduction to Cyclic Voltammetric Stripping (CVS)
This article highlights Cyclic Voltammetric Stripping (CVS) for monitoring organic additives in Cu electroplating baths, crucial for achieving optimal deposition.
- Jan 20, 2025Understanding potentiometric titration: A vital technique in pharmaceutical analysis
Pharmaceutical quality control heavily relies on titration, a method highlighted in pharmacopeias like USP-NF General Chapter <541> for its accuracy and simplicity.
- Feb 24, 2025Continuous air quality monitoring for harmful particulate matter and aerosols
Continuously monitoring ambient air quality is simple with the Metrohm AeRosol Sampler (MARS) and the 2060 Monitor for AeRosols and Gases in ambient Air (MARGA).
- Jun 28, 2021Chemistry of Fireworks
Components of fireworks, how colors are formed, and more about safety and quality control.
- Apr 6, 2020Improving your conductivity measurements
Tips and tricks on improving your conductivity measurements: choosing the right sensor, measuring the cell constant, standards, and more.
6.01033.500
Metrosep A Supp 18 Guard/4.0The Metrosep A Supp 18 Guard/4.0 reliably protects the Metrosep A Supp 18 analytical separation column against contamination from sample or eluent. It contains the same separation material as the Metrosep A Supp 18 IC Columns, is also made of PEEK, and is screwed directly onto the respective separating column with virtually no dead volume ("On Column Guard System"). The guard column prolongs the service life of the analytical column, without influencing chromatographic separating efficiency.
6.01036.420
Metrosep A Supp 21 - 150/4.0The Metrosep A Supp 21 columns are designed for operation with hydroxide-based eluents and provide excellent separating efficiency, coupled with a very high capacity. The small particles (4.6 μm) based on hydrophilized polystyrene/divinylbenzene guarantee sharp peaks. The stationary phase exhibits high stability with respect to temperature, pressure, and pH value, and is therefore suitable for extreme working conditions.The shorter version, Metrosep A Supp 21 - 150/4.0, is suitable for the determination of standard anions (fluoride, chloride, nitrite, bromide, nitrate, sulfate and phosphate) in all types of water samples at room temperature. With its separating efficiency, it exceeds the requirements of the US EPA method 300.1 A and of the DIN EN ISO 10304-1 standard. The high capacity of the column enables the quantification of anions in low μg/L concentrations with excellent reproducibility, even in the most challenging sample matrices.
6.01036.430
Metrosep A Supp 21 - 250/4.0The Metrosep A Supp 21 columns are designed for operation with hydroxide-based eluents and provide excellent separating efficiency, coupled with a very high capacity. The small particles (4.6 μm) based on hydrophilized polystyrene/divinylbenzene guarantee sharp peaks. The stationary phase exhibits high stability with respect to temperature, pressure, and pH value, and is therefore suitable for extreme working conditions.The longer Metrosep A Supp 21 - 250/4.0 column version was specially developed for the determination of oxohalides (chlorite, bromate, chlorate), standard anions (fluoride, chloride, nitrite, bromide, nitrate, sulfate, and phosphate), und DCAA (dichloracetate). With its separating efficiency, it exceeds the requirements of the US EPA method 300.1 A+B and of the DIN EN ISO 10304-1&4 standard. The high column capacity enables the quantification of anions and oxohalides in low μg/L concentrations with excellent reproducibility, even in the most challenging sample matrices. With the wide range of elution conditions available, it is also possible to determine other anionic components, e.g. low-molecular-weight organic acids.
6.01036.500
Metrosep A Supp 21 Guard/4.0The Metrosep A Supp 21 Guard/4.0 reliably protects the analytic Metrosep A Supp 21 IC Columns against contamination from the sample or eluent. It contains the same stationary phase as the Metrosep A Supp 21 IC Columns, which is packed in a PEEK guard column housing. As it is screwed directly onto the respective separation column, practically no dead volume is created ("On Column Guard System"). The guard column prolongs the service life of the analytical column, without influencing chromatographic separating efficiency.
6.1009.010
Super-Sep Guard/4.6For the protection of the Super-Sep - 100/4.6 analytic separation column
008RDX
Basic electrochemical cell set upThis is a stationary solution basic electrochemical cell for measurements of electrodes in a form of:rod/disc (6 mm dia.); thin film deposited on flat substrate (using a wireclip) ; membrane (using a wire clip); The working, counter and reference electrodes are mounted in a top casing either in 2-, or 3-electrode setup. The cell elements are constructed with materials that are inert to the sample (glass and PEEK). It well fits aqueous(EPDM O-Rings) and organic solvent (FFKM O-Rings) electrolyte requirements.The construction is gas-tight and can be used when the removal and exclusion of contaminants such as oxygen and water is required by bubbling of an inert gas through the electrolyte.Please note: this product is not available from Metrohm Germany.
009RDX
Bottom mount electrochemical cell set upThis is a stationary solution voltammetry cell for measurements of a thin film deposited on flat substrate. The sample is loaded from the bottom via magnetic (or screw) mount, while counter or/and reference electrodes are mounted in a top casing (either 2-, or 3-electrode setup).The cell elements are constructed with materials that are inert to the sample (glass and PEEK). It well fits aqueous (EPDM O-Rings) and organic solvent (FFKM O-Rings) electrolyte requirements. The construction is gas-tight and can be used when the removal and exclusion of contaminants such as oxygen and water is required by bubbling of an inert gas through the electrolyte. Please note: this product is not available from Metrohm Germany.
010RDX
Electrolyte-gated transistor bottom mounted electrochemical cell setupThis is a stationary solution electrochemical cell designed to measure characteristics of electrolyte-gated (or solution-gated) transistors using liquid or gel electrolyte. Measured transistor sample can be fabricated on a rigid or flexible flat substrate (not included in the setup) with conducting thin film source and drain, and a layer of conducting or semiconducting channel material.The sample is loaded from the bottom via magnetic (or screw) mount, while gate is mounted in a top casing. A reference electrode can also be mounted in the top casing in case it is needed to control the channel/electrolyte interfacial potential or perform an electrochemical pre-treatment on the channel material. Source and drain electrodes can be accessed through cut-outs in a cell bottom casing, using needle probes or toothless crocodile clips.The cell elements are constructed with materials that are inert to the sample (glass and PEEK). It well fits aqueous (EPDM O-Rings) and organic solvent (FFKM O-Rings) electrolyte requirements. The construction is gas-tight and can be used when the removal and exclusion of contaminants such as oxygen and water is required by bubbling of an inert gas through the electrolyte.Please note: this product is not available from Metrohm Germany.
011RDX
Corrosion cellThis is a stationary solution corrosion cell for EIS and conventional electrochemical measurements on: (a) thin metal film deposited on flat substrate(b) metal plate(c) metal mesh(d) metal wire(e) metal ribbonThe sample is installed from the bottom via magnetic (or screw) mount in between two chambers filled with electrolyte. In cases (a) and (b) bottom chamber is unused and stays dry.The counter or/and reference electrodes are mounted in a top casing (either 2-, or 3-electrode setup). The cell elements are constructed with materials that are inert to the sample (glass and PEEK). It well fits aqueous (EPDM O-Rings) and organic solvent (FFKM O-Rings) electrolyte requirements. The construction is gas-tight and can be used when the removal and exclusion of contaminants such as oxygen and water is required by bubbling of an inert gas through the electrolyte.Please note: this product is not available from Metrohm Germany.
012RDX
Multiport photo-electrochemical single-sided cell setupThis is a horizontally mounted, single compartment multiport photo-electrochemical cell. This cell allows several approaches to perform measurements in 2- or 3-electrode setups. It is designed to investigate performance of a thin film photo-anode (e.g. nanocrystalline material or conducting polymer) deposited on a rigid or flexible transparent substrate (typically fused quartz glass).The cathode (counter electrode) and reference electrode are typically mounted in a top lid, while both side lids can be used to mount up to 4 additional electrodes (e.g. pH meter, thermometer, Clark electrode, etc.). The tubing installed in side lids enables aliquot sample collection (liquid) and supply of gaseous and liquid reagents.The gas inlet and outlet in the top lid can be used to bubble the solution and evacuate gases from the chamber. It well fits aqueous (EPDM O-Rings) and )organic solvent (FFKM O-Rings) electrolyte requirements. The construction is gas-tight.Please note: this product is not available from Metrohm Germany.
014RDX
Double-tank etch cell setupThis is a horizontally mounted, double-tank cell typically used for anodization of Si-wafers with electrolyte backside contact. It consists of two polyether ether ketone (PEEK)gas-tight chambers each equipped with sapphire wafer serving as window for illumination allowing light-assisted porous Si formation.It well fits aqueous (EPDM O-Rings) and organic solvent (FFKM O-Rings) electrolyte requirements. The Si substrate is mounted in between these chambers and sealed with O-rings under magnetic/screw mount. The preparation of a whole porous Si substrate with this cell is possible at one simple etching step, assuring high reproducibility.Please note: this product is not available from Metrohm Germany.
015RDX
Photo-electrochemical double-sided cell setupThis is a horizontally mounted, single compartment photo-electrochemical cell used to simultaneously investigate thin film photo-anodes and (photo-) cathodes. This cell allows several approaches to perform measurements in 2- or 3-electrode setups.It is designed to investigate performance of a thin film photo-anode (e.g. nanocrystalline material or conducting polymer) deposited on a rigid or flexible transparent substrate (typically fused quartz glass). The cathode (counter electrode) is either mounted in a top casing or attached on the other side of the cell as a thin film deposited on rigid or flexible substrate. The reference electrode is mounted in a top casing.The cell elements are made of PEEK. It well fits aqueous (EPDM O-Rings) and organic solvent (FFKM O-Rings) electrolyte requirements. The construction is gas-tight having gas inlet and outlet, which can be used to bubble the solution and evacuate gases from the chamber.Please note: this product is not available from Metrohm Germany.
3500001940
Ethernet cable (3m)Standard network Cable (Ethernet, LAN) used to connect the VIONIC instrument to the network
3500002000
Earth Ground CableThe Earth Ground Cable (EARTH) is a single cable, 0.5 m in length, with two 4 mm banana connectors, one on each end. The Earth Ground Cable is delivered with VIONIC and is also available to purchase separately. This cable can be used to provide an Earth ground connection to any point or accessories used in the experimental setup.
3500002010
Analog Ground CableThe Analog ground cable (AGND), is a single cable, 0.5 m in length, with one 2 mm and one 4 mm banana connectors, one on each end of the cable.This cable must be used only for ZRA (or ECN) measurements with VIONIC when operating with Floating ON.The Analog Ground Cable is an optional accessory and can be purchased separately.
- 8.000.54388.000.5438Brochure: Microbore ion chromatography
2-millimeter columns, microbore capillaries, and a new detector with reduced cell volume are at the heart of the Metrohm system for microbore ion chromatography. Microbore ion chromatography above all means reduced eluent consumption resulting in cost reductions of up to 75% compared to standard bore systems. Our new microbore detector tolerates even challenging eluents such as methanesulfonic acid (MSA). With its outstanding features the new Metrohm microbore IC systems qualify for new application fields and are ideally suited for hyphenation with high-end mass detectors.
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- 8.000.54448.000.5444Brochure: Autolab IMP
Autolab IMP. Level up your electrochemistry teaching and research lab with a compact Autolab potentiostat/galvanostat with EIS functionality and NOVA software.
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- 8.000.54458.000.5445Autolab IMP. Full Specifications
Autolab IMP. Compact Autolab potentiostat/galvanostat with EIS functionality. Full specifications
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- 8.000.54468.000.5446Brochure: Thermometric Titration with OMNIS
Thermometric titration is especially useful when potentiometric titration cannot be applied, e.g. when no suitable potentiometric sensor is available. The sensors, the dThermoprobe and dThermoprobe HF, are maintenance-free and suitable for many different applications, such as the determination of the total acid number (TAN) in edible oils, sodium determination in foodstuff or analysis of acid mixtures in electroplating baths. The sensors contain a highly sensitive thermistor, which measures the enthalpy changes during the titration.Thermometric titration is integrated in OMNIS, so no additional hardware components are required. It is possible to run several potentiometric and thermometric titration analyses in parallel on your OMNIS system. If a higher throughput is required, the OMNIS Sample Robot can be used.
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- 8.000.54488.000.5448Brochure: OMNIS Titrator
The OMNIS Titrator is a modular titration platform. Increase comfort & safety of your titration application and expand with the applications whenever you need it. In this brochure you can find more information about the new OMNIS Titrator.
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- 8.000.54498.000.5449Brochure: Metrohm DropSens Porfolio Highlights
This brochure provides an overview of the most important Metrohm Dropsens products.
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- 8000545080005450Brochure: OMNIS Sample Robot
The OMNIS Sample Robot allows you to increase sample throughput to new levels, expanding a modular platform. Save bench space, enjoy unique flexibility, and benefit from unmatched performance! In this brochure you can find more information about the new OMNIS Sample Robot.
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- 8.000.54518.000.5451Brochure: Eco Titrator – Don’t take risks in your quality control
The new Eco Titrator makes titration so simple, safe, and reliable that everybody can perform titrations – and get the results right! This brochure gives you an overview about Metrohm's new Eco Titrator.
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- 8.000.54548.000.5454Brochure: Semiconductor production
The production of semiconductors requires high quality standards, as contaminants can cause defective wafers. There are several steps involved in processing the raw material (monocrystalline silicon) into a finished integrated circuit. Each step requires a significant amount of attention to detail to ensure that the quality of the finished product is high. This brochure gives an overview of the different parameters of interest, which can be analyzed by methods such as titration, ion chromatography, voltammetry and CVS, or NIR and Raman spectroscopy in the lab or integrated in the production process. The overview is structured according to the different production steps.
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- 8.000.54568.000.5456Brochure: OMNIS Titration
This brochure provides further information about OMNIS - the new analytical system by Metrohm. The system is based on a modular platform that puts the user first – always and on all levels. What does that mean, and what advantages does OMNIS offer? Find out on the following pages!
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