W-000.47.190 [2021-03] Cadmium in Water, Determination Using Atomic Absorption Spectrometry

Application/Purpose

The method describes how to determine the cadmium content of water using atomic absorption spectrometry. Among the heavy metals, the element cadmium is among the most toxic. It possesses a high capacity for complex formation.

Scope of Application

Water intended for use as an ingredient in the production of beer (brewing liquor) or other foods

Principle

The cadmium content is determined by employing a flameless method which utilizes graphite furnace atomic absorption spectrophotometry. This technique is suitable for determining the cadmium content of water with very little cadmium contamination. Any matrix effects can be eliminated by using the standard additions calibration technique.

An aliquot of the sample is dosed into a graphite tube and is subsequently subjected to a program comprising a three-step temperature regime through electrothermic resistance heating. As the temperature increases in each step, the consecutive steps include drying, matrix pyrolysis (incineration) and thermal dissociation into free atoms (atomization). These can be carried out separately. During the analysis, the graphite tube is under an inert gas atmosphere (argon).

Also important for graphite furnace AAS is background correction, which can be achieved using a continuum radiation source (deuterium) or through the Zeemann effect. Background correction with the Zeemann effect is used for particularly difficult sample matrices.

A hollow-cathode lamp or an electrodeless discharge lamp, which contains the relevant element in gaseous state, usually serves as the light source.

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