Se (Ⅳ) contents in rice samples after oxidizing acid digestion were investigated by flow injection-hydride generation atomic absorption spectrometric method (FI-HG-AAS). The optimization was performed with varyin...Se (Ⅳ) contents in rice samples after oxidizing acid digestion were investigated by flow injection-hydride generation atomic absorption spectrometric method (FI-HG-AAS). The optimization was performed with varying the formation of gaseous hydrides and the specific pieces of instrumentation. The results of FI-HG-AAS showed good linear calibration curve at the working concentration between 0.10 and 2.00 μg/L (R^2〉0.999). For 7 replicate determinations of 0.75 μg/L selenium standard solution spiked in deionized water, the precision and accuracy were 2.33% and 86.63%, respectively. The detection limit (3σ/S, n=7) was 0.01 lag/L. Oxidizing acid digestions of rice samples were carried out at the ratio of 5:3 between nitric acid and perchloric acid. This method was succeeded to determine Se (Ⅳ) in acid digestion of rice samples without pre-reduction step with hydrochloric acid and heating.展开更多
文摘Se (Ⅳ) contents in rice samples after oxidizing acid digestion were investigated by flow injection-hydride generation atomic absorption spectrometric method (FI-HG-AAS). The optimization was performed with varying the formation of gaseous hydrides and the specific pieces of instrumentation. The results of FI-HG-AAS showed good linear calibration curve at the working concentration between 0.10 and 2.00 μg/L (R^2〉0.999). For 7 replicate determinations of 0.75 μg/L selenium standard solution spiked in deionized water, the precision and accuracy were 2.33% and 86.63%, respectively. The detection limit (3σ/S, n=7) was 0.01 lag/L. Oxidizing acid digestions of rice samples were carried out at the ratio of 5:3 between nitric acid and perchloric acid. This method was succeeded to determine Se (Ⅳ) in acid digestion of rice samples without pre-reduction step with hydrochloric acid and heating.
