Capillary GC/helium microwave emission detector characterization of fluorine containing metabolites in blood plasma

“…(b) Elevated Background Excitation and Emission. It is possible that complete molecular fragmentation also occurs at the lower power levels (10,14,15). If this is the case, then the higher power available from the moderate power discharge may be further exciting the molecular background of the sample and thereby degrading the S/N (resulting in higher detection limits), (c) Optical Coupling.…”

Moderate-power helium plasma as an element-selective detector for gas chromatography of dioxins and other halogenated compounds

“…(b) Elevated Background Excitation and Emission. It is possible that complete molecular fragmentation also occurs at the lower power levels (10,14,15). If this is the case, then the higher power available from the moderate power discharge may be further exciting the molecular background of the sample and thereby degrading the S/N (resulting in higher detection limits), (c) Optical Coupling.…”

Moderate-power helium plasma as an element-selective detector for gas chromatography of dioxins and other halogenated compounds

“…The following analysis of the fluorine content as fluoride was performed utilizing LC-ICP-MS. Fluorine content was determined in leaves, milk powder, and marine tissue. Detection limits obtained for fluorine were A different application for fluorine speciation was reported by Hagen and colleagues [93]. In this case, GC-MIP-OES was applied for the separation and determination of fluorine-containing metabolites in rat blood plasma samples.…”

Speciation Analysis of Non-Metallic Elements Using Plasma-Based Atomic Spectrometry for Detection

Enhanced sensitivity and selectivity of a gas chromatography-microwave-induced plasma atomic emission system (GC-MIP) at the 685.6-nm fluorine emission line