Dielectric barrier discharge induced atomization of gaseous methylethylmercury after NaBEt4 derivatization with purge and trap preconcentration for methylmercury determination in seawater by GC-AFS

A novel method suitable for methylmercury (CH3Hg) analysis in seawater by gas chromatography (GC)-atomic fluorescence spectrometry (AFS) based on dielectric barrier discharge (DBD) induced atomization of gaseous methylethylmercury (CH3HgC2H5) after sodium tetraethylborate (NaBEt4) derivatization wit...

Full description

Saved in:
Bibliographic Details
Published in:Microchemical journal 2018-09, Vol.141, p.148-154
Main Authors: He, Qian, Yu, Xueke, Li, Yanbin, He, Huijun, Zhang, Jing
Format: Article
Language:English
Subjects:
Derivatization preconcentration
Dielectric barrier discharge
Methylethylmercury atomization
Methylmercury determination
Seawater
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:A novel method suitable for methylmercury (CH3Hg) analysis in seawater by gas chromatography (GC)-atomic fluorescence spectrometry (AFS) based on dielectric barrier discharge (DBD) induced atomization of gaseous methylethylmercury (CH3HgC2H5) after sodium tetraethylborate (NaBEt4) derivatization with purge and trap preconcentration was developed in this work. In the proposed method, with NaBEt4 used as derivatization reagent, the nonvolatile CH3Hg could be converted to the gaseous CH3HgC2H5 and trapped in a quartz tube with Tenax sorbent for preconcentration. A DBD atomizer was employed for the atomization of CH3HgC2H5 to Hg0 between the GC separation and AFS detection instead of the conventional thermal decomposition atomizer, which had not been reported before. The DBD atomizer not only produces a comparable atomization efficiency for CH3HgC2H5 to the thermal decomposition atomizer, but also can be operated at room temperature with low power consumption (5 W). The effects of DBD input discharge voltage, DBD discharge distance, N2 gas purge time, and thermal desorption time on CH3Hg determination were evaluated. The method provided good reproducibility (RSD, 2.0%) and low detection limits of CH3Hg (LOD, 0.0008 ng L−1). The proposed method was validated by the analysis of a certified reference material (GBW08675) and successfully applied to the determination of CH3Hg in sub ng L−1 level in different seawater samples. [Display omitted] •A novel method for CH3Hg analysis based on DBD induced atomization of CH3HgC2H5 after preconcentration is developed.•The DBD not only has high atomization efficiency for CH3HgC2H5, but can be operated at room temperature with low power.•The method provides good reproducibility (RSD, 2.0%) and low detection limits (LOD, 0.0008 ng L−1) for CH3Hg analysis.•The method is suitable for the determination of CH3Hg in sub ng L−1 level, such as seawater or other nature waters.
ISSN:0026-265X
1095-9149
DOI:10.1016/j.microc.2018.05.028