First order derivative spectrophotometric determination of copper(II) and iron(III) individually and simultaneously

A very simple, highly sensitive and selective first derivative spectrophoto metric method is proposed for the determination of copper (II) and iron (II I) in microgram quantities. Copper (II) and iron (II) react with 2-hydroxy- 1-naphthaldehyde benzoylhydrazone (OHNABH) in the pH range 3-7 forming gree nish yellow and yellowish brown coloured solutions, respectively. The first order derivative spectra of these coloured solutions show maximum derivate amplitude at 443 nm for Cu(II) and at 450 nm and 540 nm for Fe (III). Beer 's law is obeyed in the range 0.16-4.80 mug ml(-1) of Cu (II) at 443 nm and 0.14.4.20 mug ml(-1) of Fe (III) at 540 nm. Various statistical parameters are derived for the experimental data to show the accuracy of the method. The interference of many metal ions can be avoided in derivative mode. The method is applied for the determination of copper in some copper based allo ys and iron in some food materials. The first order derivative method is al so employed for the selective simultaneous determination of copper and iron in some plant samples.