Polychlorinated dibenzo-p-dioxins and furans offer a complex separation challenge due to their chemical similarity and 5020 possible congeners, including the Br/Cl congeners. Not only are these compounds difficult to separate, but they are also difficult to identify. Expensive reference materials are needed for conventional "dioxin analysis", usually requiring C labeled and native compounds. A retention index database offers a potential solution to lower the difficulty and cost to identify dioxins. This study describes the use of Kovats and Lee retention indices for the identification of chlorinated dioxins and furans as well as their brominated and mixed chloro/bromo counterparts. Eight columns were characterized with all 136 tetra through octa substituted chlorinated dioxins and furans as well as 32 brominated and mixed chloro/bromo congeners. Columns were then compared to identify which stationary phases provided the best resolution for critical congeners, like the 2,3,7,8 substituted compounds. Column phase selectivity was also investigated to identify best commercially-available column pairings for confirmatory analyses and GC × GC separations. The Rtx-Dioxin2 and Rxi-17SilMS showed unique selectivity for dioxins and furans and could be used as confirmatory columns or as a powerful GC × GC column set.
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Article Synopsis
- Several organic pollutants like dioxins, furans, and PCBs have raised alarms due to their ability to accumulate, migrate, and cause significant health issues over time.
- * Our study found that exposure to these pollutants is statistically linked to increased mortality and a higher incidence of chronic diseases such as kidney disease, hypertension, and diabetes.
- * Additionally, we discovered a correlation between these pollutants and inflammatory markers in the blood, suggesting they may activate the inflammatory system, contributing to health problems and increased mortality.*
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