Electrochemical
Impedance Spectroscopy
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Electrochemical Impedance Spectroscopy (EIS) is an electrochemical technique with applications in corrosion, battery development, fuel cell development, paint characterization, sensor development, and physical electrochemistry. EIS can even be used to test the freshness of fish! (J. Food Science, 65, 780 (2000)) The reason for this popularity is the high information content of EIS. EIS provides a more thorough understanding of an electrochemical system than any other electrochemical technique. Why is EIS so powerful? Because the EIS experiment involves the application of a sinusoidal electrochemical pertubation (potential or current) to the sample that covers a wide range of frequencies. This multi-frequency excitation allows (1) the measurement of several electrochemical reactions that take place at different rates and (2) the measurement of the capacitance of the electrode. For an excellent introduction to EIS, see our Basics of EIS Application Note. The Reference Section at the end of the EIS Application Note contains additional material that will be useful to you. If you have any questions on EIS, you'll find that your friends at Gamry are a wealth of information. Call Rob Sides, David Loveday, Jacob Ketter, or Pete Peterson if you'd like discuss either the theory or the applications of EIS.
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| Short Course on Electrochemical Impedance Spectroscopy | ||
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To accelerate
the learning curve, you may want to consider attending the Short Course in
EIS held at the University of Texas Health Science Center. Contact us directly for more information or
click
here for the course brochure. |
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| Instrumentation for Electrochemical Impedance Spectroscopy from Gamry | ||
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The electrochemical instrument for EIS consists of a potentiostat plus special hardware to apply and measure the AC sinusoidal signals. Because of this special hardware, EIS instruments are usually more expensive than non-EIS systems and require more room on your lab bench. Every manufacturer of EIS instrumentation
makes the same measurement, but we all use different techniques.
Gamry uses a unique technology called Sub-Harmonic
Sampling
to perform the EIS measurement. Every Gamry
Potentiostat includes the electronic components for Sub-Harmonic
Sampling. When the EIS300
Electrochemical Impedance Spectroscopy Software is installed, the
instrument can make the EIS measurement. Sub-Harmonic Sampling has
several benefits: For most (but not all!) commercial EIS systems, the instrument is controlled by software provided by the manufacturer. The design of the control software is a critical portion of the system. Because of the complexity of the EIS measurement, the software must make the measurement with no user intervention. If the software isn't properly designed, the accuracy and precision of the measurement will suffer. Finally, if you're going to use EIS, then you have to understand that every potentiostat that you purchase may not perform EIS properly on a particular sample at a particular frequency. If you don't recognize the limitations of your potentiostat, then you may report incorrect data and that is very, very bad. To help you understand the limitations of
Gamry Potentiostats, we publish an Accuracy
Contour Plot for each Potentiostat. The Accuracy Contour Plot is
a visual indicator of the ability of the Potentiostat to faithfully
reproduce the AC waveforms in EIS at a specific frequency on a sample with
a particular impedance. For an explanation of the Accuracy Contour
Plot,
check
out our Technical Note on the subject. |
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Batteries | Fuel Cells | Corrosion | Paints & Coatings | Physical Electrochemistry
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Gamry Instruments © 1997-2008
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