Interface 1010E

The Interface 1010E TM   is a general-purpose electrochemical workstation that can perform a variety of electrochemical measurements, including electrochemical impedance techniques.


Interface 1010E

The Interface 1010E can perform a variety of electrochemical measurements, including electrochemical impedance techniques. For example: physical electrochemistry, electrochemical corrosion, battery testing, fuel cell testing, solar cell testing and sensor development and other applications.

Electrochemical Impedance Spectroscopy

Interface 1010E Accuracy Contour Plot

Flexible configuration

The Interface 1010E can be used for single-channel, dual-channel, or a combination of multiple channels. GAMRY provides flexible configuration.


More capabilities of the Interface 1010E are given below. Each bullet point represents a performance.

  • Physical Electrochemistry - Cyclic voltammetry, linear sweep voltammetry, chronoamperometry, chronopotentiometry, chrono-coulomb method, multi-step chronoamperometry, and multi-step chronopotentiometry techniques.
  • Pulse Voltammetry – Differential pulse voltammetry, conventional pulse voltammetry, reverse pulse voltammetry, Osteryoung square wave voltammetry and related techniques such as anodic stripping voltammetry.
  • DC Corrosion - Run standard DC corrosion tests such as polarization resistance, potential, cyclic polarization and galvanic corrosion, etc.
  • Electrochemical Energy Devices - Test cells, capacitors, and fuel cell single cells and stacks. It includes typical test techniques such as charge, discharge, cyclic charge-discharge constant, constant potential, constant current, self-discharge, leakage rate and read potential.
  • Electrochemical Signal Analyzer - Software for acquisition and analysis of time-correlated electrochemical noise signals. Continuous monitoring of voltage and current at rates from 0.1 Hz to 1 kHz. Full-featured analysis tools such as statistical analysis, trend, impedance spectroscopy, and histogram analysis.
  • Electrochemical Frequency Modulation - A Nondestructive Corrosion Rate Measurement Method. With this technique, the corrosion rate is directly measured without the Tafel constant. In addition, the technique can determine the Tafel constant and provide parameters related to pitting.
  • Critical Pitting Temperature - Controls the Gamry potentiostat, TDC4 temperature controller, and related accessories to automatically measure the critical pitting temperature of materials.
  • Electrochemical Noise - Electrochemical noise testing is a more general technique. It is compatible with the ECM8 multiplexer software package for electrochemical noise measurements.
  • Electrochemical Impedance - In addition to single frequency Mott-Schottky measurements, also includes potentiostatic, galvanostatic and hybrid impedance measurements. These include a unique multi-wave weighting technique to improve the signal-to-noise ratio. In terms of analysis, the equivalent circuit diagram is used to fit the data, the Kramers-Kronig transformation to evaluate the data and a graphical editor, etc. The software includes an impedance simulation section. 
  • eChemAC  Toolkit - Software toolkit for full control of potentiostats for impedance (EIS) measurements and EFM experiments.

other details

  • 2, 3 and 4 electrode measurements
  • Electrical isolation
    • Floating: For autoclaves, mechanically stressed equipment or pipelines.
  • portable
    • The size of a chemistry textbook and weighs only 3kg. USB 2.0 connection to Windows computer.
  • Built-in EIS

    • EIS measurements from 10 μHz to 2 M Hz were performed using advanced DDS. 
  • DSP (Digital Signal Processing) Mode
    • Oversampling mode improves signal-to-noise ratio and accurate capacitance measurements.
  • Oversampling mode improves signal-to-noise ratio and accurate capacitance measurements.
    • The Gamry potentiostat and its control software use linear regression to accurately measure and achieve IR compensation.
  • Auxiliary I/O
    •      Through I/O design, control third-party equipment: realize external signal input, analog voltage output, analog current output, auxiliary A/D input and digital I/O connector.

  • hedging period
    • 2 year factory warranty.




Potentiostat Yes
Galvanostat Yes
Zero resistance ammeter Yes
Floating design (isolated from ground) Yes
Electrode connection 2, 3 or 4 electrodes
High Current ±1 A
Current range 9 (10 nµA-1A)
Current range (including internal gain) 11
Small current resolution 3.3 fA
large applied potential ±12 V
Rise Time <1 μs
small time base  10 μs
Noise and Ripple (Typical) <20 μV rms
weight 2.4 kg
2.4 kg 24 (W) x 6 (H) x 27 (D) 27 cm

control amplifier

Slot pressure ±20 V   (@ 1A)
Output Current >±1 A
Speed ​​setting 5
Gain Bandwidth (Typical) 980, 260, 40, 4, 0.4 kHz

EIS measurement

Frequency Range 10 μHz - 2 MHz
Impedance Accurate Map See impedance exact graph
applied voltage amplitude 2.33 V maximum
17.8 μV minimum


input resistance >1012 Ω
Input Current <20 pA
bandwidth >15 MHz
Common Mode Rejection Ratio >86 dB (10 kHz)
>60 dB (1 MHz)


Application accuracy    ±1 mV ±0.2% of setting range
applied resolution 200 μV, 50 μV, 12.5 μV/bit
measurement accuracy ±1 mV ±0.3% of reading range
Measurement resolution 1 μV, 10 μV, 100 μV, 400 μV/bit

applied current

Application accuracy    ±5 pA ±0.3% of span
applied resolution 0.0033%

measure current

measurement accuracy ±5 pA ±0.3% application/measurement resolution
Measurement resolution 0.0033%
Application/measurement resolution >10 MHz (1A - 100 μA)
>1.5 MHz (10 μA)
>0.15 MHz (1 μA)