The Peak Baselines command opens a dialog box which allows you to specify what lines are used for baselines on what peaks. In the figure depicted below, there is one… read more →
The Normalize By Scan Rate and Normalize by Square Root of the Scan Rate commands are used to remove the effect of scan-rate in cases where different scan-rates have been… read more →
The Delta Ep command is used to determine the potential difference between two peaks. In order to use this command, first you must find two or more peaks with the… read more →
The Clear Peaks command clears all the peaks associated with the chart. Any marked peaks are also removed. Any pages associated with peak information are removed.
Calculate Integrated Cottrell Equation is used in charge-vs.-tau1/2 plots to determine the values of the parameters in the Integrated Cottrell equation for Chronocoulometry experiments. In order to use this command,… read more →
The Calculate Cottrell Equation command is used in current-vs.-tau–1/2 plots to determine the values of the parameters in the Cottrell equation for Chronoamperometry experiments. In order to use this command… read more →
The Automatic Baseline command allows you to draw baselines (similar to those in the figure) for both forward and reverse peaks. Method Use the Peak Find command to locate the… read more →
Setup parameters common to all Physical Electrochemistry setups are given here. Parameters particular to Chronopotentiometry are given below.
Chronopotentiometry is used to study mechanism and kinetics of chemical reactions. In this technique, the instrument operates in galvanostatic mode to control current and measure voltage. The applied current can… read more →
Framework™ creates a runner window, and the Chronopotentiometry.EXP script is run in this window. The script creates the Setup dialog box, which becomes the active window and accepts changes in… read more →