Speciation of arsenic using capillary gas chromatography with atomic emission detection

## Abstract Capillary GC coupled to an atomic emission detector (AED) provides a powerful new hyphenated technique for the separation and characterization of complex mixtures and compounds. The AED provides simultaneous and truly specific multi‐element detection. The specificity of detection reduce

## Abstract The atomic emission detector (AED) has been found to be a sensitive and selective instrument for analysis of atmospheric sulfur gases by capillary gas chromatography. It was possible to determine atmospheric dimethyl sulfide at concentrations below 0.3 nmol/m^3^ typical of the remote ma

## Abstract Detection limits of heteroatoms and carbon were improved by eliminating the make‐up gas and sustaining a 350 kHz radio frequency plasma inside the end of a fused silica gas chromatography (GC) column (0.32 mm i.d.) for capillary GC with atomic emission detection. Due to the small intern

The potential of unnrersal cahbratlon usmg capdlary gas chromatography combmed with atonuc enusslon detection was evaluated for several chlorme-and sulphur-containing compounds of environmental interest The elemental responses obtamed for C, H, Cl and S were found to be affected by the molecular str