Investigation of equilibration and uncertainty contributions for the determination of inorganic mercury and methylmercury by isotope dilution inductively coupled plasma mass spectrometry |
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Authors: | Robert Clough Simon T Belt E Hywel Evans Ben Fairman Tim Catterick |
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Institution: | a Plymouth Environmental Research Centre, School of Environmental Sciences, University of Plymouth, Drake Circus, Plymouth, Devon PL4 8AA, UK b LGC, Queens Road, Teddington, Middlesex TW11 0LY, UK |
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Abstract: | The mass fractions of Hg and methylmercury, in two certified reference materials, NIST2710 and DORM-2, have been determined by total and species-specific isotope dilution analysis (IDA), respectively, and uncertainty budgets for each analysis calculated. The mass fraction of Hg in NIST2710 was determined by ID using multicollector sector field inductively coupled plasma mass spectrometry (MC-SF-ICP-MS) whilst the mass fraction of methylmercury in DORM-2 was determined using HPLC coupled with quadrupole ICP-MS. The extent of equilibration between the spike and the particulate bound mercury compounds was studied temporally by monitoring the 200Hg:199Hg isotope amount ratio and by determining the total amount of Hg in the liquid phase. For the NIST2710 complete equilibration was only achieved when concentrated HNO3 in combination with a microwave digestion was employed, and good agreement between the found (31.7±4.0 μg g−1, expanded uncertainty k=2) and certified (32.6±1.8 μg g−1) values was obtained. For DORM-2 complete equilibration of methylmercury between the liquid and solid phases was achieved when using 50:50 H2O:CH3OH (v/v) and 0.01% 2-mercaptoethanol as the solvent. Even though only 50% of the analyte was extracted into the liquid phase, complete equilibration was achieved, hence, the found methylmercury mass fraction (4.25±0.47 μg g−1, expanded uncertainty k=2) was in good agreement with the certified value (4.47±0.32 μg g−1). |
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Keywords: | Author Keywords: Inductive coupled plasma mass spectrometry Isotope dilution analysis Mercury speciation Uncertainty contributions |
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