Run the Hybrid EIS standard technique by selecting Experiment>Electrochemical Impedance> Hybrid (Pstat/Gstat) EIS from the Framework™ menu bar. This initiates the following sequence of events: The Framework creates a Runner… read more →
The following parameters are associated with the Hybrid Galvanostatic EIS experiment: Initial Freq. The starting point for the frequency sweep during data-acquisition. The frequency is entered in Hertz. The allowed… read more →
The Hybrid EIS technique is used to characterize an electrochemical interface. It is especially useful when the potential of the interface is changing with time and the interfacial impedance is… read more →
Run the Galvanostatic EIS standard technique by selecting Experiment>Electrochemical Impedance>Galvanostatic EIS from the Framework™ menu bar. This initiates the following sequence of events: The Framework™ creates a Runner window, and… read more →
The following parameters are associated with the Galvanostatic EIS experiment. Initial Freq. The starting point for the frequency sweep during data-acquisition. The frequency is entered in Hertz. The allowed range… read more →
The Galvanostatic EIS technique is used to characterize an electrochemical interface. It is especially useful when the potential of the interface is changing with time. A small-signal AC-current excitation is… read more →
Run the Mott-Schottky Plot technique by selecting Experiment>Electrochemical Impedance>Mott-Schottky Plot from the Framework™ menu bar. This initiates the following sequence of events: The Framework creates a Runner window, and the Mott… read more →
The Mott-Schottky Setup dialog box has the following parameters associated with the experiment. Initial Voltage The starting point for the potential sweep during data-acquisition. The allowed range is ± 8… read more →
The Mott-Schottky technique is used to measure the changes that occur in an electrochemical interface as its DC voltage is changed. A fixed-frequency, small-signal AC potential excitation is applied to… read more →