Design and characterization of a thermochemical high performance liquid chromatography flame photometric detector for the detection of non-volatile andor thermolabile sulfur compounds

Bernard, Joël.

January 1999

The need for selective and inexpensive detectors in liquid chromatography is of considerable interest in the determination of sulfur compounds. Of the available-selective sulfur methodologies, flame photometric detector coupled to gas chromatography is the most widely used. It has proven to be a sensitive and selective method for detection of heat stable and volatile sulfur compounds. Fundamentally, this technique is not applicable to high boiling and/or thermolabile sulfur compounds. More recently, hyphenated flame photometric detector has been utilized, with limited success, to monitor sulfur species in liquid chromatography. However, existing HPLC-FPD methodologies have never been applied to real samples, due to the low population of S 2, the emitting species, and the quenching effects of the other species present in the flame. / In this work, two total consumption high-performance liquid chromatography flame photometric (HPLC-FPD) interfaces compatible with either methanolic or aqueous mobile phases are described and optimized for monitoring low volatile and thermally fragile sulfur compounds in biological samples. Each interface was fuelled either by methanol or by hydrogen. The all quartz interfaces enclosed four consecutive thermal processes: (a) thermovaporization of the HPLC effluent; (b) pyrolysis of the organic matrix (including sulfur species) in a kinetic H2/O2 flame; (c) conversion of the oxidized sulfur compounds to H2S in a reducing post-combustion stage fuelled by hydrogen; and (d) transport of the generated hydrides towards a hydrogen radical rich surrounding of an inverted hydrogen-oxygen diffusion flame. Chemiluminescence induced in the last step was integrated as a narrow beam in a light-guide positioned remotely from the analytical cool flame and oriented towards a photomultiplier unit. Radioisotopic assays demonstrated that sulfur (as H235SO4) was transferred quantitatively to the analytical flame. Indirect evidence suggested that sulfur was hydrogenated in the post-combustion step via a thermochemical hydride generation process to mediate the formation of S2. The linearity of calibration graphs (0.9950 < r < 0.9986), where r is the correlation coefficient) and unprecedented HPLC-FPD limits of detection for sulfur compounds (1.5 etag/s for 2-methylthiophene, 2.25 etag/s for carbon disulfide, and 4.5 etag/s for ethanesulfonic acid) allowed for the speciation of sulfur species in garlic extracts. Alternatively, modification of the methanol fuelled interface to a hydrogen fuelled reactor allowed detection of thiosulfinates and high molecular weight sulfur compounds in horse kidney and garlic extracts, respectively.

High performance liquid chromatography.

Sulfur compounds.

Taurine.

Garlic -- Analysis.

Design and characterization of a thermochemical high performance liquid chromatography flame photometric detector for the detection of non-volatile andor thermolabile sulfur compounds

Bernard, Joël.

January 1999

No description available.

High performance liquid chromatography.

Taurine.

Garlic -- Analysis.

Sulfur compounds.