Abstract: An electrochemical method for capsaicinoid and/or related compound detection in a sample by way of a screen printed electrode having a working electrode, a reference electrode, and a counter electrode. The working electrode can be screen-printed using conductive carbon ink; the reference electrode can be screen printed using conductive carbon ink; and the counter electrode can be screen printed using silver/silver chloride. The method includes contacting the electrode with the sample in the presence of electrolyte solution, and determining whether a change in redox potential occurs by way of differential pulse voltammetry, wherein a modulation amplitude is between approximately 0.1 volt/min and approximately 2.0 volt/min, a step potential is between approximately 0.0005 volt and approximately 0.01 volt, a modulation time is 0.05 seconds, and a corresponding interval time is approximately 0.5 second.

Abstract: An electrochemical method for capsaicinoid and/or related compound detection in a sample by way of a screen printed electrode having a working electrode, a reference electrode, and a counter electrode. The working electrode can be screen-printed using conductive carbon ink; the reference electrode can be screen printed using conductive carbon ink; and the counter electrode can be screen printed using silver/silver chloride. The method includes contacting the electrode with the sample in the presence of electrolyte solution, and determining whether a change in redox potential occurs by way of differential pulse voltammetry, wherein a modulation amplitude is between approximately 0.1 volt/min and approximately 2.0 volt/min, a step potential is between approximately 0.0005 volt and approximately 0.01 volt, a modulation time is 0.05 seconds, and a corresponding interval time is approximately 0.5 second.