Electrochemical generation of mercury cold vapor and its in-situ trapping in gold-covered graphite tube atomizers
- 作者:Vá ; clav Č ; ervený ; Petr Rychlovský ; Jarmila Netolická ; ; Jan Š ; í ; ma
- 关键词:Electrochemical cold vapor generation ; Electrothermal atomic absorption spectrometry ; In-situ trapping ; Mercury determination
- 刊名:Spectrochimica Acta Part B ; Atomic Spectroscopy
- 出版年:2007
- 期刊代码:101_05848547
- 类别:ch
- 出版时间:March 2007
- 卷:62
- 期:3
- 页码:317-323
- 文件大小:205 K
摘要
The combination of more efficient flow-through electrochemical mercury cold vapor generation with its in-situ trapping in a graphite tube atomizer is described. This coupled technique has been optimized to attain the maximum sensitivity for Hg determination and to minimize the limits of detection and determination. A laboratory constructed thin-layer flow-through cell with a platinum cathode served as the cold vapor generator. Various cathode arrangements with different active surface areas were tested. Automated sampling equipment for the graphite atomizer with an untreated fused silica capillary was used for the introduction of the mercury vapor. The inner surface of the graphite tube was covered with a gold foil placed against the sampling hole.
The results attained for the electrochemical mercury cold vapor generation (an absolute limit of detection of 80 pg; peak absorbance, 3σ criterion) were compared with the traditional vapor generation using NaBH4 as the reducing agent (an absolute limit of detection of 124 pg; peak absorbance, 3σ criterion). The repeatability at the 5 ng ml− 1 level was better than 4.1%(RSD) for electrochemical mercury vapor generation and better than 5.6%for the chemical cold vapor generation. The proposed method was applied to the determination the of Hg contents in a certified reference material and in spiked river water samples.