Potentiostat / Galvanostat / ZRA Gamry Interface 1010
Potentiostat / Galvanostat / ZRA Gamry Interface 1010
The Interface 1010 potentiostat / galvanostat / ZRA is a compact, cost-effective system for all types of electrochemical measurements.The Potentiostat / Galvanostat / ZRA Interface 1010 can be purchased flexibly at a low entry-level price in the “T(eaching)” version for almost all applications in electrochemistry; should requirements increase, existing electronic components with higher specifications can be activated via a paid upgrade.
Product Description
With 9 measuring ranges and 2 amplification stages, you have a total of 11 decades available for measuring currents with the Interface 1010.
From corrosion to batteries and sensors to supercaps, everything is covered with maximum flexibility. State-of-the-art microelectronics combined with decades of experience in the design of potentiostats make the Interface 1010 a powerful yet cost-effective measuring system. Whether you want to cycle your small batteries or polarise large electrode surfaces, the Interface 1010 offers 1 A current at ± 22 V at the counter electrode. Like all other Gamry potentiostats, the Interface 1010 has a floating ground so that you can analyse a grounded working electrode or several working electrodes, e.g. for bipotentiostatic measurements in a common electrolyte.
The system can also be used with other devices, such as AFMs, QCMs and pH meters, without having to worry about ground loops. The Interface 1010, like all Gamry systems, has exceptionally low noise and hum. The system can realise precise impedance measurements in the range from 10 µHz to 2 MHz without additional modules or cost-intensive accessories. The Accuracy Contour Plot (ACP) provides a detailed view of the performance of the system depending on the specifications of the samples. With the additional temperature measurement input (Pt1000), you can now also increase the safety of your employees in the battery laboratory.
Downloads
Videos
Electrochemistry – simply try something new!The Gamry Interface 1010 Potentiostat Starter PackSpecifications
DIMENSIONS (cm) 24 (W) x 6 (H) x 27 (D)SYSTEM
Working
electrode potential (max.): ±12 V
Maximum current: ±1 A
Number of current measurement ranges with internal amplification: 11 (100 pA – 1 A)
Input resistance: >10¹² Ω
Frequency range for EIS measurements: 10 µHz – 2 MHz
Temperature measurement:
Pt1000 input
iR
COMPENSATION
Current Interrupt (CI) method up to approx. 20 mV/s
EARTHING
Floating ground / earthing via the housing optionally possible
Options and Accessories
Measurement cells and accessories:
• Interface 1010 Bipotentiostat
• Interface 1010 / Interface 5000 bipotentiostat
• ECM8
• RDE710
• eQCM15M
• EuroCell
• Flexcell
• Lithium Battery Materials Cell
• Low Inductance Battery Holder (Dual-CR2032 / Dual-18650)
Applications
• Electrochemical impedance spectroscopy (EIS) – a powerful electrochemical technique
• In-situ SANS measurement on electrical double layer capacitors
• Testing Super-Capacitors
• How to Buy a Potentiostat
• The Quality of Your Fit in EIS
• Electrochemical investigation of biologically inspired molecular metal oxide clusters and their redox behaviour
• Total Harmonic Distortion (THD)
• Battery development / Battery research: Electrochemical characterisation of graphite electrodes in lithium-ion batteries
• Measuring the Optical Power of your LED
• Troubleshooting Your Gamry Potentiostat
• Tips and Techniques for Improving Potentiostat Stability
• Checking the Integrity of a Gamry Cell Cable
• Changing Potentiostat Speed Settings
• Calibration of an Au-coated Quartz Crystal
• Potentiostat Fundamentals
• Measurement of Small Electrochemical Signals
• Faraday Cage: What Is It, How Does It Work?
• Dye Solar Cells – Part 3: IMPS and IMVS Measurements
• Dye Solar Cells – Part 2: Impedance Measurements
• DSSC: Dye Sensitised Solar Cells
• Measuring Surface Related Currents using Digital Staircase Voltammetry
• Characterisation of a Supercapacitor using an Electrochemical Quartz Crystal Microbalance
• Compliance Voltage: How Much is Enough
• Two, Three and Four Electrode Experiments
• Understanding iR Compensation
• THE Method for Crevice Corrosion Repassivation Potentials
• Rapid Electrochemical Assessment of Paint
• EQCM Investigations of a Thin Polymer Film
• Polarisation Resistance Tutorial – Getting Started
• Comparison of Corrosion Rate Calculated by EFM, LPR, and EIS
• Getting Started with Electrochemical Corrosion Measurement
• Testing Electrochemical Capacitors Part 2: Cyclic Charge Discharge and Stacks
• Testing Electrochemical Capacitors Part 1: CV, EIS, and Leakage Current
• Testing Lithium Ion Batteries
• Quick Check of EIS System Performance
• How Cabling and Signal Amplitudes Affect EIS Results
• Testing Electrochemical Capacitors: Part 3 – Electrochemical Impedance Spectroscopy
• EIS of Organic Coatings and Paints
• Verification of Low-impedance EIS Using a 1mΩ Resistor
• OptiEIS™: A Multisine Implementation
• EIS Measurement of a Very Low Impedance Lithium Ion Battery
• Measuring Batteries Using the Right Setup (Dual-cell CR2032 and 18650 Battery holder)
• Potentiostatic EIS Tutorial – Getting Started
• A Snapshot of Electrochemical Impedance Spectroscopy
• Accuracy Contour Plots – Measurement and Discussion
