Automation of a graphite-furnace atomic absorption spectrometry system with a Z80-based microcomputer

Palladium was determined in pharmaceuticals by direct graphite furnace atomic absorption spectrometry (GFAAS) method. The detection limit was 0.1 mg/g in 5% solution; the recovery of 0.5-2.0 mg/g Pd spike was close to 100%. The flow injection GFAAS method was worked out using oxime and iminodiacetic

Ruthenium shows promise for use as a chemical modifier for the determination of ultratrace quantities of lead in solution when compared with the popular and widely used palladium. There is experimental evidence that ruthenium reacts with lead in the graphite tube to form the intermetallic compound P

A chemical modifier composed of nickel and zirconium salts and treatment of the graphite tube with zirconium solution were studied for the determination of boron in cast iron, Fe-, Ni-and Fe-Ni-based alloys. A combination of 3000 mg 1-l nickel and 1000 mg I-' zirconium as chemical modifier and soaki

The direct atonuzatlon of tm m sahne water media m graphite furnace atormc absorption spectrometry with a tungsten-coated tube was investigated The combmed use of a tungsten-coated non-pyrolytic graphite tube and palladium as a chenucal modlfier ehnunated sahmty m doubly diluted sea water without a