Electrochemical Workstations

Electrochemical Workstation

 Sciencetech is pleased to represent Zahner in Canada. With 40 years of experience in the field, Zahner’s high-quality electrochemical instruments are backed by years of expertise. Zahner’s systems are an excellent choice for many applications such as corrosion testing, photoelectrochemistry, fuel cell testing, and Li-ion battery testing.

 

The core of the Zahner instrumentation is an electrochemical workstation. With the Zennium, Zennium E, Zennium-pro, and Zennium-X, there is a workstation available to support the most advanced techniques, as well as a cost-effective option for more straightforward applications. Supported by the Thales software, many different techniques can be accessed from the same software interface, making the Zahner line convenient and easy to use.

 

With modular components to add on, accessories for your specific technique can be simply and easily added to your workstation, customizing your setup for your specific requirements.

 

For photoelectrochemistry, the CIMPS instruments are a powerful choice. With a light source included and kept stable by a control loop, considerations such as non-linearity, ageing, and temperature drift no longer need be considered. The package includes the light source (driven by an included slave potentiostat), optical bench, photoelectrochemical cell, and all required software. For QE and IPCE measurements, consider the CIMPS-QE/IPCE package, including all necessary components to collect QE and IPCE measurements from your sample.

 

Contact us for more details


 


Electrochemical Workstations Models 


 

With the following electrochemical workstations available as a base, you can perform many measurements with the workstation alone or choose add-ons to customize your capabilities for your specific requirements:

 

 

Zennium X

Zennium pro

Zennium

Zennium E

Upper frequency limit

12 MHz

8 MHz

4 MHz

2 MHz

Current range

±4.0 A

±3.0 A

±2.5 A

±2.0 A

Input Impedance

>10 TΩ || 5 pF

>10 TΩ || 5 pF

1 TΩ || 5 pF

10 TΩ || 5 pF

Extension slots

10

5

4

N/A

Maximum parallel channels (PAD4)

17

5

5

N/A



Items 1 to 10 of 36 total

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  1. 690-1301

    Zahner ABS-1 CIMPS Add-On for Photo-Electrochemical Transmittance/Absorbance

    The option Spectral Resolved Transmittance / Absorbance Measurement System allows you to examine electro-chromic processes with your CIMPS system.

    For this purpose CIMPS is equipped with a UV-VIS-IR spectrometer, two photo-electrochemical cells PECC-2 mounted on an automatic slide (one for the measuring object and one as reference), and a high-power intensity controlled white light illuminator (LED emitter or Tungsten lamp, others like D2 or Xenon lamp on request). Automatic spectra series are measured vs. cell voltage, current and time. The list of series parameters may be optionally extended to any physical quantity supported, such as temperature, concentration, pH and more. In addition to automatic triggering, each recording can be started manually after setting the electrochemical parameCIMPS-abs2ters. The Thales software provides versatile light spectra analysis routines which allow many useful graphic representations, zoom-, cursor-, documentation- and data export functions. Like with all Thales data file types, Windows® detects the light spectra files automatically and presents info-boxes and graphic preview.

    ILT-950 spectrometer
    PECC-slide with 2 x PECC-2
    WLR02 LED (420–730 nm) or WOW01 tungsten light source (360–1000 nm)
    CIMPS-abs software

    Requirements: Basic CIMPS system

    For pricing information, please request a quotation from sales@sciencetech-inc.com. Learn More
    USD$0.00
  2. 690-1302

    Zahner ABS-2 CIMPS Add-On for Photo-Electrochemical Transmittance/Absorbance

    The option Spectral Resolved Transmittance / Absorbance Measurement System allows you to examine electro-chromic processes with your CIMPS system.

    For this purpose CIMPS is equipped with a UV-VIS-IR spectrometer, two photo-electrochemical cells PECC-2 mounted on an automatic slide (one for the measuring object and one as reference), and a high-power intensity controlled white light illuminator (LED emitter or Tungsten lamp, others like D2 or Xenon lamp on request). Automatic spectra series are measured vs. cell voltage, current and time. The list of series parameters may be optionally extended to any physical quantity supported, such as temperature, concentration, pH and more. In addition to automatic triggering, each recording can be started manually after setting the electrochemical parameCIMPS-abs2ters. The Thales software provides versatile light spectra analysis routines which allow many useful graphic representations, zoom-, cursor-, documentation- and data export functions. Like with all Thales data file types, Windows® detects the light spectra files automatically and presents info-boxes and graphic preview.

    STE-BLK-CXR-SR Concave Grating Spectrometer
    PECC-slide with 2 x PECC-2
    balanced tungsten-deuterium light source (220–1100 nm)
    CIMPS-abs software

    Requirements: Basic CIMPS system

    For pricing information, please request a quotation from sales@sciencetech-inc.com. Learn More
    USD$0.00
  3. 690-0504

    Zahner AMZ60 Electrochemical Flat-Sample Cell

    Electrochemical Flat-Sample Cell

    The area measuring cell AMZ60 is a triple electrode cell for electrochemical testing of coated samples.

    Max. sample width: 105 mm
    Ag/AgCl reference electrode

    For pricing information, please request a quotation from sales@sciencetech-inc.com. Learn More
    USD$0.00
  4. 690-1101

    Zahner CIMPS Photo-Electrochemical Workstation

    The automatic comparison between set value and sensed intensity eliminates the influence of non-linearity, ageing and temperature drift. Furthermore, it allows the direct calibration of the light source in units of intensity (W/m²).
    The ZAHNER CIMPS system based on LED arrays brings an additional advantage compared to the IMPS described in the literature: a control loop regulates light intensity and modulation and keeps it absolutely stable

    The CIMPS package consists of several components, working together in a plug & play application, including software and an overall calibration of the system. An electrochemical workstation IM6 or Zennium acts as a frequency response analyser and as a support unit (potentiostat / galvanostat) for the cell under test. The IM-series workstations are renowned for their high precision, ease of use and comprehensive software. A slave potentiostat, driven by the IM6/Zennium system, controls amplitude and modulation of the light source over a wide range of frequencies.

    An optical bench carries the housing of the light source with the integrated photo-amplifier and the slide with the photo-electrochemical cell (PECC-1 and PECC-2). A photodiode sensor is mounted near the site of the cell’s light inlet, adjustable in height and angle. Depending on the application, you can chose from different types of light sources.

    Zennium workstation (10 μHz – 4 MHz / ±2.5 A / 4 extension slots)
    LED potentiostat: PP211 (±10 A max.), EPC42
    Optical bench with calibrated sensor, LDA2, and SIMPECC
    CIMPS & THALES software package

    For pricing information, please request a quotation from sales@sciencetech-inc.com. Learn More
    USD$0.00
  5. 690-1501

    Zahner CIMPS-LEB-2 Light Exclusion Box / Faraday's Cage

    Light Exclusion Box / Faraday's Cage

    The CIMPS Light Exclusion Box (LEB) is an indispensable supplement for all CIMPS applications using CIMPS LED light sources. Next to its function to protect the sample setup from light, at the same time, it works as a Faraday’s cage.

    The CIMPS optical bench fits directly into a fixture. The box is compatible with all single wavelength light sources as well as with the tunable light source TLS03. The cover with top and attached front and sides can be tilted up granting free access to the complete optical bench. Three blanketed openings on three sides are leading all cables into the box but block the light.

    Fitting for CIMPS optical rail
    For all CIMPS light sources incl. TLS03 (not for Solar Simulators)
    Easy handling by hinged top/sides and three cable inlets
    Ground connector for shielding (Faraday’s Cage function)
    Dimensions: 60 x 33 x 23 cm (W x D x H) without handle

    For pricing information, please request a quotation from sales@sciencetech-inc.com. Learn More
    USD$0.00
  6. 690-1102

    Zahner CIMPS-pro Photo-Electrochemical Workstation

    This is Zahner CIMPS station with extended opportunities

    The automatic comparison between set value and sensed intensity eliminates the influence of non-linearity, ageing and temperature drift. Furthermore, it allows the direct calibration of the light source in units of intensity (W/m²).
    The ZAHNER CIMPS system based on LED arrays brings an additional advantage compared to the IMPS described in the literature: a control loop regulates light intensity and modulation and keeps it absolutely stable

    The CIMPS package consists of several components, working together in a plug & play application, including software and an overall calibration of the system. An electrochemical workstation IM6 or Zennium acts as a frequency response analyser and as a support unit (potentiostat / galvanostat) for the cell under test. The IM-series workstations are renowned for their high precision, ease of use and comprehensive software. A slave potentiostat, driven by the IM6/Zennium system, controls amplitude and modulation of the light source over a wide range of frequencies.

    An optical bench carries the housing of the light source with the integrated photo-amplifier and the slide with the photo-electrochemical cell (PECC-1 and PECC-2). A photodiode sensor is mounted near the site of the cell’s light inlet, adjustable in height and angle. Depending on the application, you can chose from different types of light sources.

    Zennium-pro workstation (10 μHz – 8 MHz / ±3 A / 5 extension slots)
    LED potentiostat: PP211 (±10 A max.), EPC42
    Optical bench with calibrated sensor, LDA2, and SIMPECC
    CIMPS & THALES software package

    For pricing information, please request a quotation from sales@sciencetech-inc.com. Learn More
    USD$0.00
  7. 690-1104

    Zahner CIMPS-QE/IPCE2 Photo-Electrochemical photo current spectra system

    Quantum Efficiency (QE) / Incident Photon Conversion Efficiency (IPCE) measurements at a new level of performance and accuracy.
    ZAHNER’s CIMPS-QE/IPCE system is a fully integrated and compact workstation for high-accuracy QE/IPCE measurements at the push of a button. Setting up the system is quick and easy, does not require either special knowledge or additional tools.

    Easy Mountable Optical Bench: The optical parts are arranged on an easy mountable optical bench.
    PTB-Traceable Detector: The integrated optical sensor (PTB-traceable, PTB is the European equivalent to NIST) is used to measure and feedback-control the light intensity exactly.
    Unique Feedback Control: This special and exclusive feature of all Zahner CIMPS systems grants you an accurate light intensity regardless of age and temperature of the LEDs. So there is no need for a reference cell and time consuming realignments of sample holders
    Tunable Optical Light Source: The unique and patented tunable light-source, TLS03, uses dedicated LEDs as well as a linear monochromator. Different from systems using Xenon lamps which require filters and a mechanical chopper, the concept of the TLS03 provides high light intensity along with a low spectral half-width and a multitude of features unique for this kind of instruments. Furthermore, LEDs can be modulated much faster than a mechanical chopper can do.
    No warm up time: Using state of the art LEDs not only increases power efficiency drastically, it also eliminates the long warm up times required by Xe-lamp based systems.
    Real Sine Wave Modulated: Unlike chopper-based systems, the TLS03 can be real sine wave modulated without harmonic distortion.
    Intelligent Control: With its intelligent control of a multitude of LEDs of different wavelengths, the TLS03 significantly outputs more power at a certain wavelength than a system consisting of a Xenon lamp plus monochromator can do. Additionally, a switchable white background illumination helps to speed up measurements at DSSC and enables investigations on tandem solar cells.
    Wavelength Range: The TLS03 is available with a standard wavelength range of 365 nm to 1020 nm and with an extended range of 295 nm to 1020 nm.
    Photo-ElChem standard methods: The CIMPS-QE/IPCE system also features the standard photo-electrochemical methods like CIMPS, CIMVS (controlled IMPS/IMVS) and fill factor
    EIS, CV or Polarization Measurements: All CIMPS systems are providing the full range of electrochemical methods like EIS, CV or Polarization Measurements.
    Expandability: CIMPS QE/IPCE system can be expanded by a multitude of options to provide special methods like experiments on absorption/transmission (CIMPS-abs), light emission (CIMPS-emit), fast intensity transients (CIMPS-fit) and dynamic transmittance/reflectance (CIMPS-dtr).

    Photo-Electrochemical Workstation Fully integrated QE/IPCE workstation Zennium workstation with PP211 light potentiostat, EPC42 TLS03 tunable light source: 365 nm – 1020 nm QE/IPCE software CIMPS software (CIMPS/IMPS, CIMVS/IMVS, fill factor, max. power, etc.) Thales software (EIS, CV, I/E, Polarisation, etc.) Expandable with CIMPS options

    Ask sales representative about price on this product Learn More
    USD$0.00
  8. Zahner CIMPS-QE/IPCE3 Photo-Electrochemical Workstation

    Zahner CIMPS-QE/IPCE3 Photo-Electrochemical Workstation

    Photo-Electrochemical Workstation

    Quantum Efficiency (QE) / Incident Photon Conversion Efficiency (IPCE) measurements at a new level of performance and accuracy.
    ZAHNER’s CIMPS-QE/IPCE system is a fully integrated and compact workstation for high-accuracy QE/IPCE measurements at the push of a button. Setting up the system is quick and easy, does not require either special knowledge or additional tools.

    Easy Mountable Optical Bench: The optical parts are arranged on an easy mountable optical bench.
    PTB-Traceable Detector: The integrated optical sensor (PTB-traceable, PTB is the European equivalent to NIST) is used to measure and feedback-control the light intensity exactly.
    Unique Feedback Control: This special and exclusive feature of all Zahner CIMPS systems grants you an accurate light intensity regardless of age and temperature of the LEDs. So there is no need for a reference cell and time consuming realignments of sample holders
    Tunable Optical Light Source: The unique and patented tunable light-source, TLS03, uses dedicated LEDs as well as a linear monochromator. Different from systems using Xenon lamps which require filters and a mechanical chopper, the concept of the TLS03 provides high light intensity along with a low spectral half-width and a multitude of features unique for this kind of instruments. Furthermore, LEDs can be modulated much faster than a mechanical chopper can do.
    No warm up time: Using state of the art LEDs not only increases power efficiency drastically, it also eliminates the long warm up times required by Xe-lamp based systems.
    Real Sine Wave Modulated: Unlike chopper-based systems, the TLS03 can be real sine wave modulated without harmonic distortion.
    Intelligent Control: With its intelligent control of a multitude of LEDs of different wavelengths, the TLS03 significantly outputs more power at a certain wavelength than a system consisting of a Xenon lamp plus monochromator can do. Additionally, a switchable white background illumination helps to speed up measurements at DSSC and enables investigations on tandem solar cells.
    Wavelength Range: The TLS03 is available with a standard wavelength range of 365 nm to 1020 nm and with an extended range of 295 nm to 1020 nm.
    Photo-ElChem standard methods: The CIMPS-QE/IPCE system also features the standard photo-electrochemical methods like CIMPS, CIMVS (controlled IMPS/IMVS) and fill factor
    EIS, CV or Polarization Measurements: All CIMPS systems are providing the full range of electrochemical methods like EIS, CV or Polarization Measurements.
    Expandability: CIMPS QE/IPCE system can be expanded by a multitude of options to provide special methods like experiments on absorption/transmission (CIMPS-abs), light emission (CIMPS-emit), fast intensity transients (CIMPS-fit) and dynamic transmittance/reflectance (CIMPS-dtr).

    Fully integrated QE/IPCE workstation
    Zennium-pro workstation with PP211 light potentiostat, EPC42
    TLS03/uv tunable light source: 295 nm – 1020 nm
    QE/IPCE software
    CIMPS software (CIMPS/IMPS, CIMVS/IMVS, fill factor, max. power, etc.)
    Thales software (EIS, CV, I/E, Polarisation, etc.)
    Expandable with CIMPS options

    For pricing information, please request a quotation from sales@sciencetech-inc.com. Learn More
    USD$0.00
  9. 690-1103

    Zahner CIMPS-X Photo-Electrochemical Workstation

    This is Zahner CIMPS station with extended opportunities

    The automatic comparison between set value and sensed intensity eliminates the influence of non-linearity, ageing and temperature drift. Furthermore, it allows the direct calibration of the light source in units of intensity (W/m²).
    The ZAHNER CIMPS system based on LED arrays brings an additional advantage compared to the IMPS described in the literature: a control loop regulates light intensity and modulation and keeps it absolutely stable

    The CIMPS package consists of several components, working together in a plug & play application, including software and an overall calibration of the system. An electrochemical workstation IM6 or Zennium acts as a frequency response analyser and as a support unit (potentiostat / galvanostat) for the cell under test. The IM-series workstations are renowned for their high precision, ease of use and comprehensive software. A slave potentiostat, driven by the IM6/Zennium system, controls amplitude and modulation of the light source over a wide range of frequencies.

    An optical bench carries the housing of the light source with the integrated photo-amplifier and the slide with the photo-electrochemical cell (PECC-1 and PECC-2). A photodiode sensor is mounted near the site of the cell’s light inlet, adjustable in height and angle. Depending on the application, you can chose from different types of light sources.

    Zennium-X workstation (10 μHz – 12 MHz / ±4 A / 10 extension slots)
    LED potentiostat: PP211 (±10 A max.), EPC42
    Optical bench with calibrated sensor, LDA2, and SIMPECC
    CIMPS & THALES software package

    For pricing information, please request a quotation from sales@sciencetech-inc.com. Learn More
    USD$0.00
  10. 690-0206

    Zahner EL1000 Electronic Load

    The EL1000 was designed to investigate single cells or complete stacks up to 100 V. Adding an additional external electronic load, the maximum current of 200 A can be raised up to 600 A and the corresponding power from 1000 W to 60 kW.

    Due to the limited potential span resulting from the combination of chemical elements or compounds, a huge number of cells have to be stacked to achieve a technical practicable voltage, say for instance 100 V. The EL 1000 was designed to investigate complete stacks, either as stand-alone device under PC control or in combination with a workstation IM6 or Zennium for instance for impedance measurements. Adding an additional external electronic load, the power can be raised up – adding the PAD4 to the controlling workstation, individual segments of the stack can be investigated separately.

    The EL-Series potentiostats are controlled by an EPC42, a plug-in module for the Electrochemical Workstations IM6 and Zennium. Each EPC42 can address up to four EL-Series potentiostats. Up to four EPC42 cards can control up to 16 ELs by one IM6/Zennium. Each potentiostat will hold the control parameters from one access to the next one, so that no potential or current disturbances can occur while scanning the potentiostats. If series measurements are performed with more than one EL-Series potentiostat, spectra are taken from all modules in a definable order. The EL-Series is completely integrated into the IM6/Zennium environment. Thus, all acquisition and analysis techniques that run on the IM6/Zennium can be applied with the EL-Series potentiostats as well. The installation of one or more EL-Series potentiostat will upgrade your IM6/Zennium to an even more versatile, high-current electrochemical workstation.

    Max. power: 1000 W
    Max. Current: 200 A
    Voltage range: 4 V / 100 V
    Impedance range: 1 μ - 1 k
    Frequency range: DC – 10 kHz @ 200 A, DC – 100 kHz @ 50 A
    EPC42 required

    For pricing information, please request a quotation from sales@sciencetech-inc.com. Learn More
    USD$0.00

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