Experimental designs applied to solid-phase derivative spectrophotometry

Using two statistical models, based on the two-level full factorial designs and sequential experimental Doehlert designs, a simultaneous determination of cadmium and zinc by solid-phase derivative spectrophotometry has been p roposed. These chemometric techniques have been used for the optimization o f the instrumental and experimental variables of the system. The complexes formed between cadmium and zinc with 4-(2-pyridylazo) resorcinol, in the pr esence of potassium iodide, were fixed on a dextran-type anion-exchange gel , at pH 8.7. The absorbance spectra of the gel, packed in a 1-mm cell, were recorded directly. The performance characteristics of the proposed method have been established. The method was applied to the simultaneous determina tion of both analytes in synthetic mixtures and natural water samples.