This work investigates the potential of high-resolution continuum source graphite furnace atomic absorption spectrometry for the direct determination of Pd, Pt and Rh in two samples of very different nature. While analysis of active pharmaceutical ingredients is straightforward and it is feasible to minimize matrix effects, to the point that calibration can be carried out against aqueous standard solutions, the analysis of used automobile catalysts is more challenging requiring the addition of a chemical modifier (NH4(F)center dot HF) to help in releasing the analytes, a more vigorous temperature program and the use of a solid standard (CRM ERM (R)-EB504) for calibration. However, in both cases it was possible to obtain accurate results and precision values typically better than 10% RSD in a fast and simple way, while only two determinations are needed for the three analytes, since Pt and Rh can be simultaneously monitored in both types of samples. Overall, the methods proposed seem suited for the determination of these analytes in such types of samples, offering a greener and faster alternative that circumvents the traditional problems associated with sample digestion, requiring a small amount of sample only (0.05 mg per replicate for catalysts, and a few milligrams for the pharmaceuticals) and providing sufficient sensitivity to easily comply with regulations. The LODs achieved were 6.5 mu g g(-1) (pd), 83 mu g g(-1) (Pt) and 93.14 mu g g(-1) (Rh) for catalysts, which decreased to 0.08 mu g g(-1) (Pd), 0.15 mu g g-1 (Pt) and 0.10 mu g g(-1) (Rh) for pharmaceuticals.

• 出版日期2015-3-1