A practical exercise for the determination of As(III) by flow injection hydride generation-atomic absorption spectrometry

Flow-injection analysis is applied to sample introduction in conjunction with automated hydride generation and AAS for the determination of As and Se in environmental samples such as soil, vegetation, waters, sediments, and industrial wastes. A large sample loop was used to provide high sensitivitie

## Antimony(lI1) and -(V) were determined by flow-injection-hydride generation atomic absorption spectrometry (AAS) and by continuous-ffow-hydride generation AAS and the analytical performances of the methods were compared. The optimum physical and chemical conditions for hydride generation and tr

A flow-injection system is described for the semi-automatic determination of arsenic (10-1000 pg 1-l) by hydride generation and inductively-coupled plasma atomic emission spectrometry. The elements which were found to interfere were Co, Ni, Ag, Au, Bi, Te and Sn. Standard reference materials were an

Iron(II1) has a very effective releasing effect on the depressive interference from copper(I1) on the determination of selenium by hydride-generation atomic absorption spectrometry. In solutions with 100 mg 1-l Cu(II), 10 pg 1-l Se(IV) and 2.0 mol 1-l HCl, the absorbance obtained was much higher wh

A method is described for the determination of arsenic involving hydride generation and atomic absorption spectrometry with an improved long graphite-tube furnace capable of considerably higher temperatures than the conventional quartz-tube heaters. Arsine is generated with sodium tetrahydroborate,