采用金微电极阳极溶出伏安法测定水和海水中的无机砷形态

Inorganic arsenic speciation in water and seawater by anodic stripping voltammetry with a gold microelectrode.

作者信息

Salaün Pascal, Planer-Friedrich Britta, van den Berg Constant M G

机构信息

University of Liverpool, Department of Earth and Ocean Sciences, Liverpool L69 3GP, United Kingdom.

出版信息

Anal Chim Acta. 2007 Mar 7;585(2):312-22. doi: 10.1016/j.aca.2006.12.048. Epub 2007 Jan 10.

DOI:10.1016/j.aca.2006.12.048

PMID:17386680

Abstract

The determination of arsenic in sea and freshwater by anodic stripping voltammetry (ASV) was revisited because of problems related to unstable peaks and inconveniently strong acidic conditions used by existing methods. Contrary to previous work it was found, that As(III) can be determined by ASV using a gold microwire electrode at any pH including the neutral pH typical for natural waters. As(V) on the other hand, requires acidification to pH 1, but this is still a much milder condition than used previously. This is the basis of a new method for the chemical speciation of arsenic in natural waters. The limits of detection are 0.2 nM As(III) at pH 8 and 0.3 nM combined arsenic (III+V) at pH 1 with a 30 s deposition time. These limits are lowered by extending the deposition time. The detection step at pH 8 was stripping chronopotentiometry (SC) as this was found to give a lower detection limit than ASV. Copper is co-determined simultaneously with arsenic. The method was applied successfully to the determination of arsenic as well as copper in samples from the Irish Sea, mineral water and tap water.

摘要

由于现有方法存在与不稳定峰相关的问题以及使用的酸性条件过强不便操作，因此对采用阳极溶出伏安法（ASV）测定海水和淡水中的砷进行了重新研究。与之前的工作相反，研究发现，使用金微丝电极通过ASV法可以在任何pH值下测定As(III)，包括天然水体典型的中性pH值。另一方面，As(V)需要酸化至pH 1，但这仍比之前使用的条件温和得多。这是一种用于天然水体中砷化学形态分析的新方法的基础。在30 s沉积时间下，pH 8时As(III)的检测限为0.2 nM，pH 1时总砷（III+V）的检测限为0.3 nM。通过延长沉积时间可降低这些检测限。pH 8时的检测步骤采用溶出计时电位法（SC），因为发现其检测限低于ASV法。铜与砷同时进行测定。该方法已成功应用于爱尔兰海、矿泉水和自来水中砷以及铜的测定。

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采用金微电极阳极溶出伏安法测定水和海水中的无机砷形态

Inorganic arsenic speciation in water and seawater by anodic stripping voltammetry with a gold microelectrode.

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