Optimization of an electrolytic conductivity detector for determination of toxic nitrogen-containing food contaminants separated by open tubular column gas chromatography

Abstract

The combination of open tubular column gas chromatography with electrolytic conductivity detection has been evaluated for the determination of nitrogen‐containing pesticide residues in food extracts. Optimization of the column position at the column‐detector interface was crucial to the successful operation of the detector. The signal‐to‐noise ratio and response stability of the detector are greatly influenced by the composition of the electrolyte solvent. Large volume splitless injections using retention gaps and optimized detector operating conditions enabled pesticide residues in food extracts to be determined at sub parts‐per‐million levels. Although the electrolytic conductivity detector is less sensitive than the thermionic ionization detector, its greater nitrogen selectivity can he crucial to the determination of nitrogen‐containing contaminants in food extracts, particularly in complex mixtures where phosphorus‐containing contaminants or matrix compounds are also present.