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Higher levels of copper in drinking water are usually caused by corrosive action of water leaching copper from copper pipes. While copper is an essential nutrient for the human body, ingestion of higher concentrations have an adverse effect on our health. The current World Health Organization’s «Guidelines for Drinking-water Quality» recommend a maximum concentration of 2000 μg/L.

With a limit of detection (LOD) of 0.5 μg/L, anodic stripping voltammetry is a viable, less sophisticated alternative to atomic absorption spectroscopy (AAS) for the determination of copper in drinking water. While AAS (and competing methods) can only be performed in a laboratory, anodic stripping voltammetry can be used conventionally in the laboratory or alternatively in the field with the 946 Portable VA Analyzer. The determination is carried out on the scTRACE Gold electrode.

Tap water

946 Portable VA Analyzer (scTRACE Gold version)
Figure 1. 946 Portable VA Analyzer (scTRACE Gold version)

The scTRACE Gold is electrochemically activated prior to the first determination. In the next step, the water sample and the supporting electrolyte are pipetted into the measuring vessel. The determination is carried out with the 884 Professional VA or with the 946 Portable VA Analyzer using the parameters specified in Table 1. The concentration is determined by two additions of a standard addition solution.

Figure 2. 884 Professional VA fully automated for VA
Table 1. Parameters
Parameter Setting
Mode DP – Differential pulse
Deposition potential -0.3 V
Deposition time 30 s
Start potential -0.1 V
End potential 0.6 V
Peak potential Cu 0.25 V
  • scTRACE Gold

The limit of detection of the method is approximately 0.5 μg/L.

Figure 3. Determination of copper in tap water (946 Portable VA Analyzer; 30 s deposition time)
Table 2. Results of Cu analysis in tap water
Sample Cu (μg/L)
Tap water 5.1
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Metrohm ANZ

56 Buffalo Road
2111 Gladesville

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