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Issue 10, 2018
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Development of a new diffusive gradient in the thin film (DGT) method for the simultaneous measurement of CH3Hg+ and Hg2+

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Abstract

In this study, a Tulsion® CH-95 binding gel-based diffusive gradient in the thin film (TCH DGT) method was developed for the simultaneous measurement of CH3Hg+ and Hg2+. The binding kinetics of CH3Hg+ and Hg2+ in a mixed solution indicated rapid uptake to the TCH gel. The Hg2+ exhibited slower absorption rates compared to the CH3Hg+, which did not affect the DGT uptake overall. Stable elution efficiencies were obtained for CH3Hg+ and Hg2+ using a mild reagent containing 0.1 M HCL and 2% thiourea. The diffusion coefficients of CH3Hg+ and Hg2+ in agarose gel were calculated on the basis of the time-series deployment method and were 9.94 (×10−6 cm2 s−1, 25 °C) and 7.65 (×10−6 cm2 s−1, 25 °C), respectively. The DGT uptakes were independent of pH for CH3Hg+ (pH 4.10–8.10) and Hg2+ (pH 4.10–10.03), with no effect of the ionic strengths between 0.1–1000 mM NaCl. The capacity of TCH DGT for CH3Hg+ and Hg2+ according to linear and theoretical responses were calculated to be 33.97 μg cm−2 and 30.34 μg cm−2, respectively. The performance of this technique was further tested in sediment. Two distinct peaks of CH3Hg+ and Hg2+ appeared at similar sediment depths, reflecting that the localized remobilization of CH3Hg+ and Hg2+ may occur through similar mechanisms. This confirms that the TCH DGT is a useful in situ monitoring tool.

Graphical abstract: Development of a new diffusive gradient in the thin film (DGT) method for the simultaneous measurement of CH3Hg+ and Hg2+

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Publication details

The article was received on 16 Jan 2018, accepted on 29 Mar 2018 and first published on 02 Apr 2018


Article type: Paper
DOI: 10.1039/C8NJ00211H
Citation: New J. Chem., 2018,42, 7976-7983
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    Development of a new diffusive gradient in the thin film (DGT) method for the simultaneous measurement of CH3Hg+ and Hg2+

    M. Ren, Y. Wang, S. Ding, L. Yang, Q. Sun and L. Zhang, New J. Chem., 2018, 42, 7976
    DOI: 10.1039/C8NJ00211H

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