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DRP-ECLPHOTODIODCELL

Cell for screen-printed electrodes to perform electrochemiluminescence measurements. This ABS cell includes a Silicon photodiode with preamp with a spectral response range 340 - 1100 nm and peak sensitivity wavelength of 960nm. This cell should be used in combination with µStat ECL or µStat SpectroECL electrochemiluminiscence instruments.

DRP-FLKIT

Kit for performing fluorescence experiments composed by 2 x short optical fibers (600 µm) ended in SMA 905 connections, 2 x optical filters one of 230-500 nm and other for 300-750 nm wavelength and 2 x holders for the filters.Complete your set up by adding the required excitation light depending on the range of interest (ref. LEDUV275, LEDVIS395 or LEDRGB).For performing fluorescence spectroscopy experiments coupled to spectroelectrochemistry (ref. SPELEC) with SPEs acquire the suitable reflection probe (RPROBE) and reflection cell (REFLECELL).

DRP-FLKITSPE

Kit designed for those researchers interested in performing fluorescence spectroscopy experiments with screen-printed electrodes (Includes 2 x optical fibers (600 um) ended in SMA 905 connections, 2 x optical filters 230-500 and 300-750 nm 2 x holders, 1 x RPROBE-VIS-UV and 1 x REFLECELL).

DRP-FLWCL-IDE-PEEK

DRP-FOLSOL-AQU-1ML

DRP-FOLSOL-AQU-5ML

DRP-GQD

DRP-HCELL

This cell consists of two electrochemical compartments in which hydrogen is produced in the load cell and detected in the oxidation cell. It can be used to evaluate hydrogen uptake, permeability and transport in a variety of metal membranes, among other applications.

DRP-HCELLKIT

DRP-I-BICAST

Connector that acts as an interface between our dual screen-printed electrodes and Metrohm DropSens potentiostats.

DRP-I-CABSTAT

μStat Cable connector for μStat-i 400 and conventional electrodes

DRP-I-CABSTAT1

μStat Cable connector for μStat-i 400s and conventional electrodes

DRP-I-CAST

Connector that act as an interface between our Screen-Printed Electrodes and Metrohm DropSens potentiostats.

DRP-IRNP-COL

DRP-I-VKIT

Kit for verifying the correct performance of instruments: μStat-i 400s, μStat-i 400s and μStat-i MultiX

DRP-LEDRGB

LED light for performing fluorescence spectroscopy experiments coupled to spectroelectrochemistry

DRP-LEDUV275

LED light for performing fluorescence spectroscopy experiments coupled to spectroelectrochemistry

DRP-LEDVIS395

LED light of 395 nm wavelength

DRP-PTAUNINW-LO-1.5

DRP-PTAUNINW-SH-1.5

DRP-PTGRID-TRANSCELL

This cell allows mass electrolysis to be easily performed while transmission measurements (1 mm optical path) are acquired in the solution close to the electrode.

DRP-RAMANCELL-C

Cell in PEEK for Raman spectroelectrochemical measurements. Designed be used with ref. RAMANPROBE and conventional Metrohm electrodes.

DRP-RAMANCELL-M

Cell for spectroelectrochemical applications in combination with a microscope, allowing the laser focus onto the surface of the working electrode, obtaining valuable information while the electrochemical process takes place.

DRP-RAMANCELLS-U3

DRP-RAMANPROBE638

Reflection probe designed to be used with a single excitation 638 nm wavelength (up to 300 mW). Suitable to work with DropSens Raman cell for screen-printed electrodes (ref. RAMANCELL), Raman cell for conventional electrodes (ref. RAMANCELL-C) or with any conventional Raman set-up.

DRP-REFLECELL-C

Cell for UV-Vis/NIR spectroelectrochemical measurements with conventional electrodes.

DRP-RHNP-COL

DRP-RPROBE-VIS-NIR

Reflection probe VIS-NIR designed to perform reflection experiments.

DRP-SBNP-PUR

DRP-SMAFC

DRP-SMAFC105

DRP-SMAFC200

DRP-SNNP-PUR

DRP-SPECELL4W-U20

Electrochemical cells for easy and fast handling of 4W format screen-printed electrodes. Take advantage of their disposable, lightweight and quick-assembly design to handle large droplets and ensure good surface coverage and sample sealing.

DRP-SPECELL8W-U20

Electrochemical cells for easy and fast handling of 8W format screen-printed electrodes. Take advantage of their disposable, lightweight and quick-assembly design to handle large droplets and ensure good surface coverage and sample sealing.

DRP-SPECELL8X-U20

Electrochemical cells for easy and fast handling of 8X format screen-printed electrodes. Take advantage of their disposable, lightweight and quick-assembly design to handle large droplets and ensure good surface coverage and sample sealing.

DRP-SPECELL-U75

Electrochemical cells for easy and fast handling of screen-printed electrodes. Take advantage of their disposable, lightweight and quick-assembly design to handle large droplets and ensure good surface coverage and sample sealing.

DRP-SYNCONN96X

SYNCONN96X is an automatic controller of CONNECTOR96X that allows executing the assays sequentially without the need of employing the manual rotating selectors at the CONNECTOR96X.

DRP-TFIBER-VIS-NIR

Transmission fiber VIS-NIR designed to perform transmission experiments

DRP-TLCELL

Thin-layer electrochemical cell for screen-printed electrodes with 2mm banana direct connections

DRP-TLFCELL

Thin film flow cell for use with ceramic SPEs with the detection zone in the center of the strip. It allows the study of different parameters under flow conditions.

DRP-TLFCLRAMANCELL

DRP-TRANSPACK-VIS-UV

Pack designed for those researchers insterested in performing transmision UV-VIS experiments with screen-printed electrodes and SPELEC instrument

DRP-TUBEB-U12

PVC tube for peristaltic pump – 1.651 mm inner diameter

DRP-TUBEO-U12

PVC tube for peristaltic pump – 0.889 mm inner diameter

DRP-TUBER-U12

PVC tube for peristaltic pump – 1.143 mm inner diameter

DRP-TUBEY-U12

PVC tube for peristaltic pump – 1.422 mm inner diameter

DRP-USBFLOATING

The floating USB cable is a galvanic isolation accessory that connected to your instrument will allow you to work in “floating mode” instead of “grounded mode”

DRP-VKIT

Kit for verifying the correct performance of instruments: μStat 300 and μStat 400

DRP-VKITECL

Kit for verifying the correct performance of instruments: μStat ECL and SpectroECL. With this kit you will be able to perform electrochemical and optical verification.

DRP-VKITMULTI

Kit for verifying the performance of instruments: μStat4000P, μStat 4000, μStat 8000P and μStat 8000. You will be able to verify each independent channel and the multichannel mode of your equipment.

DRP-VKITSPELEC

Kit for verifying the performance of instruments: SPELEC and SPELEC 1050. With this kit, you will be able to perform electrochemical and optical verification.

DRP-VKITSPELECNIR

Kit for verifying the correct performance of SPELECNIR instrument. With this kit, you will be able to perform electrochemical and optical verification.

DRP-VKITSPELECRAMAN

Kit for verifying the correct performance of SPELECRAMAN instrument. With this kit, you will be able to perform electrochemical and optical verification.

ECAT.COMPACT.S

Metrohm Autolab offers and ECAT compact package that offers electrochemical instrumentation and accessories with an industry-leading 3-year warranty as standard. With a compact PGSTAT204 equipped with a dual-mode bipotentiostat module.The Autolab ECAT compact package comes with free NOVA 2 software that provides built-in Levich and Koutecky – Levich analysis methods for fast and easy data analysis. Included in the package is also a Rotating Ring Disk Electrode (RRDE) that is high precision with an ultra-low noise electrode rotation from 100 to 10,000 RPM. A complete RRDE electrochemical cell is also included in the package.Possible applications include: electrocatalyst material testing, mechanistic information,: detection of intermediates via collection and shielding experiments (RRDE), electrochemical kinetics studies, mass-transport properties with forced convection conditions.This package offers high-quality standard measurements including those under forced convection conditions.

ECD.S

The lowest current range available on the standard Autolab is 10 nA. At this current range, the Autolab has a current resolution of 30 fA. When doing measurements on micro-electrodes sometimes even higher resolution is needed. Originally designed for electrochemical detection in HPLC and FIA, the ECD module makes the measurement of such low currents possible.The ECD module provides 2 additional current ranges of 1 nA and 100 pA giving a minimum current resolution of 0.3 fA. The ECD module also has a built in third order Sallen-Key filter, with 3 RC-time constants that help to filter out noise.

ECI10M.S

The ECI10M extends the measurable range for electrochemical impedance spectroscopy to a maximum of 10 MHz.The ECI10M consists of a module, installed in the Autolab potentiostat/galvanostat and coupled to the FRA32M module and an external interface designed to be placed in close proximity of the electrochemical cell in order to minimize the effects from the electrode cables.The small form factor of the external interface allows measurements in a glove box or Faraday cage.The ECI10M uses the Automatic Amplitude Correction algorithm (AAC) to ensure that the amplitude applied on the cell corresponds to the required amplitude at all times, thus maximizing the resolution while respecting the linearity and stability conditions during the measurement.

ECN.S

Electrochemical noise (ECN) is an in-situ technique for measuring these localized corrosion processes on bare or coated metal samples. During measurements with the ECN module no external perturbation (potential or current) is applied to the electrode. The potential and current signals are measured as a function of time.The accompanying analysis software allows the current and potential versus time data to be analyzed using Fast Fourier Transform (FFT). The software also provides several filtering and mathematical methods for treating electrochemical noise signals.

EQCM.CELL.S

EQCM complete cell including cover

EQCM.MAC.204.S

The EQCM module provides the means to perform Electrochemical Quartz Crystal Microbalance experiments. The EQCM module measures a mass change per unit area by recording the change in resonant frequency of a quartz crystal oscillator.Measurements in the sub μg/cm2 are possible. The EQCM can be fitted with 6 MHz, AT-cut crystals.The EQCM module is supplied with a suitable electrochemical cell, reference and counter electrode and two 6 MHz gold-coated crystals.

EQCM.S

The EQCM module provides the means to perform Electrochemical Quartz Crystal Microbalance experiments. The EQCM module measures a mass change per unit area by recording the change in resonant frequency of a quartz crystal oscillator.Measurements in the sub μg/cm2 are possible. The EQCM can be fitted with 6 MHz, AT-cut crystals.The EQCM module is supplied with a suitable electrochemical cell, reference and counter electrode and two 6 MHz gold-coated crystals.

FAR.CAGE.LRG

The Autolab Faraday cage has been designed to allow the users to protect their electrochemical cell setup from electro-magnetic interference from external sources such as computer monitors, other instruments in the lab or power lines.In many cases the main source of external electrical interference is the line frequency (50/60 Hz) which can corrupt electrochemical data, particularly when small signals are being measured. An earth terminal is available in the Faraday cage to connect to the Autolab to prevent ground loops.External dimensions: (WxDxH) 38x30x60 cm3

FAR.CAGE.LRG

The Autolab Faraday cage has been designed to allow the users to protect their electrochemical cell setup from electro-magnetic interference from external sources such as computer monitors, other instruments in the lab or power lines.In many cases the main source of external electrical interference is the line frequency (50/60 Hz) which can corrupt electrochemical data, particularly when small signals are being measured. An earth terminal is available in the Faraday cage to connect to the Autolab to prevent ground loops. External dimensions: (WxDxH) 38x30x60 cm3

FAR.CAGE.S

The Autolab Faraday cage has been designed to allow the users to protect their electrochemical cell setup from electro-magnetic interference from external sources such as computer monitors, other instruments in the lab or power lines.In many cases the main source of external electrical interference is the line frequency (50/60 Hz) which can corrupt electrochemical data, particularly when small signals are being measured. An earth terminal is available in the Faraday cage to connect to the Autolab to prevent ground loops.

FI20.S

The FI20 filter and integrator module allows the Autolab users to do coulometric and chrono-coulometric experiments. The analog integrator gives you the possibility to measure charge instead of current and can be used both in cyclic voltammetry as well as in potential step experiments.With this module it is easy to separate the capacitive current from the faradaic current. In addition the integrator is effective in reducing signal noise by averaging it out.The third order Sallen-Key filter with selectable RC-times between 0 and 500 ms, can be used to filter out noise.The filter of the FI20 module is also useful in cases where the background noise (50 or 60 Hz for example) cannot be removed by using measures like a Faraday cage.

FLAT.CELL.S

The Autolab flat cell is a corrosion cell suitable for measurements on very large flat samples, up to 17 cm² in size. The cell is supplied with a reference electrode, a stainless steel counter electrode and a gas purging tube.

FLAT.CLAMP

FLAT.COUNTER

FLAT.GAS

FLAT.PLATFORM

FLAT.PLATFORM.CMPL.S

Complete Flat sample platform for large, flat samples.Keywords: Corrosion cell, linear polarization, Tafel, corrosion rate, flat samples, salt spray

FLAT.RING

FLAT.TOP

FLAT.VESSEL

FRA32M.MAC.204.S

The FRA32M provides the means to perform impedance and electrochemical impedance measurements in combination with the Autolab. This module allows one to perform both potentiostatic and galvanostatic impedance measurements over a wide frequency range of 10 µHz to 32 MHz (limited to 1 MHz in combination with the Autolab PGSTAT). In addition to the classical EIS, the NOVA software also allows the users to modulate other outside signals such as rotation speed of a rotating disk electrode or the frequency of a light source to perform Electro-hydrodynamic or Photo-modulated impedance spectroscopy.The FRA32M module comes with a powerful fit and simulation software for the analysis of impedance data.

FRA32M.S

The FRA32M provides the means to perform impedance and electrochemical impedance measurements in combination with the Autolab. This module allows one to perform both potentiostatic and galvanostatic impedance measurements over a wide frequency range of 10 µHz to 32 MHz (limited to 1 MHz in combination with the Autolab PGSTAT). In addition to the classical EIS, the NOVA software also allows the users to modulate other outside signals such as rotation speed of a rotating disk electrode or the frequency of a light source to perform Electro-hydrodynamic or Photo-modulated impedance spectroscopy.The FRA32M module comes with a powerful fit and simulation software for the analysis of impedance data.

GAS.INLET.FRIT

Two way gas purge tube for the Autolab RRDE and 1L Corrosion Cell.

IME303

This product is no longer available to purchase, but it is under warranty. Should you have a service requirement please contact your Metrohm distributor.The IME303 is used to control the PAR303 mercury electrode for electroanalytical measurement.

IME663.101.S

Interface for Metrohm 663 VA Stand

IME663.S

Interface for Metrohm 663 VA Stand.

LOAD.INT.S

The Electronic load interface is a generic interface that can be used to control third party electronic loads or power supplies, in order to perform electrochemical measurements at very high power. With a programmable electronic load, the Autolab is able to sink very high currents, up to the limit of the electronic load. With a programmable power supply, the Autolab is able to source very high currents, up to the limit of the power supply.

MBA.S

The MBA.S is an additional bipotentiostat module which can be installed into a MultiBA (MBA) Autolab potentiostat/galvanostat adding an additional working electrode to the MBA instrument. A maximum of 5 MBA.S modules together with one FRA32M.S module can be installed in one MBA instrument.

MUX.MAC.204.S

The MUX module series allows you to perform electrochemical experiments on multiple cells or multiple working electrodes, sequentially. The cell to perform measurement on can be selected either manually or automatically using the sequencing option of NOVA. Metrohm Autolab offers two types of MUX modules.• MUX.MULTI4 - Used to multiplex all four connections from the Autolab. This allows sequential measurements on complete electrochemical cells, up to 64 cells with increments of 4.• MUX.SCNR16 - Used to multiplex the working electrode connection of the Autolab. This allows sequential measurements on cells that share the same counter, reference and sense electrode but different working electrode, up to 255 different working electrodes with increments of 16.• MUX.SCNR8 - Used to multiplex the reference and sense electrode connections of the Autolab. This allows sequential voltage sensing across different electrochemical cells, up to 128 cells with increments of 8.

MUX.MULTI4.S or MUX.SCNR16.S or MUX.SCNR8.S

The MUX module series allows you to perform electrochemical experiments on multiple cells or multiple working electrodes, sequentially. The cell to perform measurement on can be selected either manually or automatically using the sequencing option of NOVA. Metrohm Autolab offers two types of MUX modules.MUX.MULTI4 - Used to multiplex all four connections from the Autolab. This allows sequential measurements on complete electrochemical cells, up to 64 cells with increments of 4.; MUX.SCNR16 - Used to multiplex the working electrode connection of the Autolab. This allows sequential measurements on cells that share the same counter, reference and sense electrode but different working electrode, up to 255 different working electrodes with increments of 16.; MUX.SCNR8 - Used to multiplex the reference and sense electrode connections of the Autolab. This allows sequential voltage sensing across different electrochemical cells, up to 128 cells with increments of 8.;

MUX.S

The MUX module series allows you to perform electrochemical experiments on multiple cells or multiple working electrodes, sequentially. The cell to perform measurement on can be selected either manually or automatically using the sequencing option of NOVA. Metrohm Autolab offers two types of MUX modules.MUX.MULTI4 - Used to multiplex all four connections from the Autolab. This allows sequential measurements on complete electrochemical cells, up to 64 cells with increments of 4.; MUX.SCNR16 - Used to multiplex the working electrode connection of the Autolab. This allows sequential measurements on cells that share the same counter, reference and sense electrode but different working electrode, up to 255 different working electrodes with increments of 16.; MUX.SCNR8 - Used to multiplex the reference and sense electrode connections of the Autolab. This allows sequential voltage sensing across different electrochemical cells, up to 128 cells with increments of 8.;

NOVA.x

NOVA installation USB stick, including NOVA license.

pX1000.LEMO.BAN

Differential input cables for the pX1000 module. Two cables are provided, V+ and V-.

pX1000.LEMO.CVR

Cover for unused inputs of the pX1000 module.

pX1000.MAC.204.S

The pX1000 allows the measurements of pH or pX values during electrochemical experiments. This module also provides an additional Pt1000 input which allows recording of the temperature during the experiments, either through a Pt1000 sensor or through a combined pH/Pt1000 sensor. The temperature measurement allows automatic pH corrections.The pX1000 module can also be used as an additional differential electrometer, with the same specifications as the main Autolab electrometer. The pX1000 module is compatible with the Metrohm pH and temperature sensors. The user can connect any pH, pX or ‘double’ electrode to the pX1000 module. In case an electrode other than a pH electrode is used, the output is given as the voltage difference that is measured between the electrodes making it possible to connect a detection electrode to perform coulometric titration. The pX1000 module also works as an independent pH meter.

pX1000.S

The pX1000 allows the measurements of pH or pX values during electrochemical experiments. This module also provides an additional Pt1000 input which allows recording of the temperature during the experiments, either through a Pt1000 sensor or through a combined pH/Pt1000 sensor. The temperature measurement allows automatic pH corrections.The pX1000 module can also be used as an additional differential electrometer, with the same specifications as the main Autolab electrometer. The pX1000 module is compatible with the Metrohm pH and temperature sensors.The user can connect any pH, pX or ‘double’ electrode to the pX1000 module. In case an electrode other than a pH electrode is used, the output is given as the voltage difference that is measured between the electrodes making it possible to connect a detection electrode to perform coulometric titration. The pX1000 module also works as an independent pH meter.

RCE.EL

Rotating cylinder electrode for 12 mm OD cylinders. Cylinder insert in NOT included. Available cylinder materials: carbon steel 1018 (RCE.CYL.CS1018) and stainless steel 304 (RCE.CYL.SS304)

RHD.CAP.GC3

Exchangeable electrode pressed in PEEK made of various materials with diverging diameters and lengths.

RHD.CLEAN.KIT

The cleaning and polishing kit contains all tools required to perfectly clean the measuring cells of sample residue, and to polish especially the platinum crucibles to mirror-like finish. The kit contains a multifunctional rotary tool.

RHD.HCBAS.CLOSED.S

Autolab Microcell HC Basic Package closed features a temperature-controlled cell stand as the basis for all rhd instruments measuring cells.The cell stand contains the peltier element for active heating and cooling of the measuring cell. It allows the hassle-free establishment of the cell connections to the potentiostat.This package includes:1 Cell holder Autolab Microcell HC; 1 temperature controller 3216; 1 Heat conducting compound; 1 Serial connection kit; 1 Adapter box BNC - banana; All required connection cables and tools; Measuring cells sold separately.

RHD.TSC1600.CLOSED

The TSC 1600 Closed is an closed measuring cell intended for investigating liquid electrolytes. This measuring cell has a 1.6 mL platinum crucible as sample container. For smaller sample volume, please use the TSC 70 Closed cell. This cell is airtight and thus shielded against the atmosphere and can be used with moisture-sensitive samples.

RHD.TSCBATT.ADVANCED

The TSC Battery Expanded is a closed measuring cell intended for assembling half or full battery or supercap cells with e.g. active materials and separators. It is also suitable for investigating solid or gel-like samples in contact with metal electrodes in a plat/plate geometry. You have flexibility with cell configuration either two or three electrode measurements can be performed by inserting a microreference electrode from the side. The standard variant contains flat metal electrodes. For current collectors designed for using elemental lithium as electrode material please refer to the extended variant.

RHD.TSCSPECTRO

The TSC Spectro cell is a closed measuring cell intended for performing spectro-electrochemistry experiments. It comes with a platinum gauze electrode located at the focal point of the sensing light beam entering through adjustable side windows. Both two and three electrode measurements can be performed by inserting a microreference electrode from the side. This cell is airtight and thus shielded against atmosphere and can be used with moisture-sensitive samples.Cell Materials in contact with sample: PEEK, Platinum, Glassy Carbon, EPDM, FFKM

RRDE.CAP

Teflon lid with seven conical fittings for the Autolab RRDE Cell.

RRDE.CELL.CPL.S

The Autolab RRDE cell is a complete electrochemical cell designed for experiments under forced convection with the Autolab RRDE (or Autolab RDE2). The kit consists of a glass vessel with a volume of 300 mL, fitted with a thermostatic jacket for temperature control.All the parts that can come in contact with the solution can be cleaned in aggressive conditions, making the cell suitable for typical electrocatalysis experiments or sensitive interfacial electrochemistry measurements.

RRDE.CLAMP

Metal cell stand holder for the Autolab RRDE Cell.

RRDE.HOSE.CONN

Set of adapters for connecting an external waterbath to the Autolab RRDE Cell for temperature control.

RRDE.ORING.SIL

Teflon-coating o-ring for the Autolab RRDE Cell.

RRDE.RING.NYLON

Holding ring for the Autolab RRDE Cell.

RRDE.STOPPER

Set of glass stoppers for the Autolab RRDE Cell.

RRDE.THERM.ADAPT

Thermometer adapter for the Autolab RRDE Cell.

RRDE.VESSEL

Glass vessel of the Autolab RRDE Cell.

SCAN250.S

When the processes exhibit very fast transient behavior, such as hydrogen adsorption, digital sweep can lead to loss of information regarding the adsorption process. The SCAN250 module, which has the capability of applying a true analog sweep to the sample, was specially designed to overcome this problem. The true linear scan rate range is from 10 mV/s to 250 kV/s. The SCAN250 module in combination with ADC10M is a very powerful tool for studying fast transients.

VOLT.MULT.S

The voltage multiplier is an extension that can be placed in series with the differential amplifier of the Autolab to extend the measurable voltage range to a maximum of 100 V. This can be used to perform electrochemical measurements on battery and fuel cell stacks.