痕量水平的汞形态自动分析
Trace-Level Automated Mercury Speciation Analysis.
作者信息
Taylor Vivien F, Carter Annie, Davies Colin, Jackson Brian P
机构信息
Trace Element Analysis Core, Dartmouth College, 6105 Fairchild, Hanover NH 03755.
出版信息
Anal Methods. 2011;3(5):1143-1148. doi: 10.1039/C0AY00528B.
Abstract
An automated system for methyl Hg analysis by purge and trap gas chromatography (GC) was evaluated, with comparison of several different instrument configurations including chromatography columns (packed column or capillary), detector (atomic fluorescence, AFS, or inductively coupled plasma mass spectrometry, ICP-MS, using quadrupole and sector field ICP- MS instruments). Method detection limits (MDL) of 0.042 pg and 0.030 pg for CH(3)Hg(+) were achieved with the automated Hg analysis system configured with AFS and ICPMS detection, respectively. Capillary GC with temperature programming was effective in improving resolution and decreasing retention times of heavier Hg species (in this case C(3)H(7)Hg(+)) although carryover between samples was increased. With capillary GC, the MDL for CH(3)Hg(+) was 0.25 pg for AFS detection and 0.060 pg for ICP-MS detection. The automated system was demonstrated to have high throughput (72 samples analyzed in 8 hours) requiring considerably less analyst time than the manual method for methyl mercury analysis described in EPA 1630.
摘要
对一种通过吹扫捕集气相色谱法(GC)分析甲基汞的自动化系统进行了评估,并比较了几种不同的仪器配置,包括色谱柱(填充柱或毛细管柱)、检测器(原子荧光光谱仪,AFS,或电感耦合等离子体质谱仪,ICP-MS,使用四极杆和扇形场ICP-MS仪器)。分别使用配置AFS和ICP-MS检测的自动化汞分析系统,CH(3)Hg(+)的方法检出限(MDL)达到0.042 pg和0.030 pg。程序升温的毛细管GC有效地提高了分辨率并缩短了较重汞物种(在这种情况下为C(3)H(7)Hg(+))的保留时间,尽管样品之间的残留增加了。使用毛细管GC时,AFS检测CH(3)Hg(+)的MDL为0.25 pg,ICP-MS检测为0.060 pg。结果表明,该自动化系统具有高通量(8小时内分析72个样品),与EPA 1630中描述的甲基汞分析手动方法相比,所需的分析人员时间大大减少。
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