A compact and robust OES technique was developed for the sensitive determination of Hg, Fe, Ni, and Co by utilizing photochemical vapor generation and point discharge as the sampling technique and the excitation source, respectively. Mercury cold vapor and the volatile species of Fe, Ni, and Co were generated when standard or sample solutions containing formic acid were exposed to a UV photochemical reactor and subsequently separated from the liquid phase for transport to the microplasma and detection of their atomic emission. Limits of detection (LODs) of 0.10, 10, 0.20, and 4.5 μg L(-1) were obtained for Hg, Fe, Ni and Co, respectively. Compared to conventional microplasma OES, this method not only broadens the scope of elements amenable to determination, but also provides 2- and 7-fold improvement in the LODs for Hg and Ni, respectively. Method validation was demonstrated by analysis of three Certified Reference Materials (GBW08607, DORM-3, and DORM-4) with satisfactory results, and by good spike recoveries (93-111%) from three real water samples.
An improved hollow fiber supported liquid-liquid-liquid membrane microextraction (HF-LLLMME) method is described for the simultaneous extraction of inorganic and organic mercury species with high efficiency prior to speciation analysis by capillary electrophoresis. The HF-LLLMME was developed by filling cyclohexane and L-cysteine aqueous solution in the pores of the hollow fiber wall and its lumen as organic liquid membrane and acceptor phase, respectively. Inorganic mercury (Hg 2+ ), methylmercury (MeHg), ethylmercury (EtHg) and phenylmercury (PhHg) firstly formed hydrophobic complexes with 1-(2-pyridylazo)-2-naphthol in donor solutions, wherein the hollow fiber was immersed. The complexes were then extracted into the organic liquid membrane and further transferred into the lumen of the hollow fiber to form hydrophilic complexes with L-cysteine. The factors affecting the extraction efficiency were carefully investigated. With the consumption of 50 mL of sample solution, the enrichment factor was 103, 265, 511 and 683 for Hg 2+ , MeHg, EtHg and PhHg, respectively. The limits of detection were in the range of 0.07-1.0 ng mL À1 (as Hg) with precisions (RSDs, n ¼ 6) ranging from 1.7 to 4.4%. The proposed method was validated by analyzing a certified reference material (DORM-2, dogfish-muscle) and an environmental water sample with satisfactory results.
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