Matrix elimination method for the determination of precious metals in ores using electrothermal atomic absorption spectrometry

Poly( N-(hydroxymethyl)methacrylamide)-1-allyl-2-thiourea) hydrogels, poly(NHMMA-ATU), were synthesized by gamma radiation using 60Co γ source in the ternary mixture of NHMMA-ATU-H 2O. These hydrogels were used for the specific gold, silver, platinum and palladium recovery, pre-concentration and mat...

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Bibliographic Details
Published in:Analytica chimica acta 2007-03, Vol.587 (2), p.272-280
Main Authors: Salih, Bekir, Çelikbıçak, Ömür, Döker, Serhat, Doğan, Mehmet
Format: Article
Language:English
Subjects:
Adsorption
Analytical chemistry
Chemistry
Chemistry Techniques, Analytical - methods
Electrochemistry - methods
Exact sciences and technology
Geology - methods
Graphite - chemistry
Graphite furnace atomic absorption spectrometer
Hydrogels
Hydrogen-Ion Concentration
Ions
Matrix elimination
Metallurgy - methods
Metals - analysis
Metals - isolation & purification
Pre-concentration
Precious metal
Recovery
Seawater
Spectrometric and optical methods
Spectrophotometry, Atomic - methods
Temperature
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Summary:Poly( N-(hydroxymethyl)methacrylamide)-1-allyl-2-thiourea) hydrogels, poly(NHMMA-ATU), were synthesized by gamma radiation using 60Co γ source in the ternary mixture of NHMMA-ATU-H 2O. These hydrogels were used for the specific gold, silver, platinum and palladium recovery, pre-concentration and matrix elimination from the solutions containing trace amounts of precious metal ions. Elimination of inorganic matrices such as different transition and heavy metal ions, and anions was performed by adjusting the solution pH to 0.5 that was the selective adsorption pH of the precious metal ions. Desorption of the precious metal ions was performed by using 0.8 M thiourea in 3 M HCl as the most efficient desorbing agent with recovery values more than 95%. In the desorption medium, thiourea effect on the atomic signal was eliminated by selecting proper pyrolysis and atomization temperatures for all precious metal ions. Precision and the accuracy of the results were improved in the graphite furnace-atomic absorption spectrometer (GFAAS) measurements by applying the developed matrix elimination method performing the adsorption at pH 0.5. Pre-concentration factors of the studied precious metal ions were found to be at least 1000-fold. Detection limits of the precious metal ions were found to be less than 10 ng L −1 of the all studied precious metal ions by using the proposed pre-concentration method. Determination of trace levels of the precious metals in the sea-water, anode slime, geological samples and photographic fixer solutions were performed using GFAAS clearly after applying the adsorption–desorption cycle onto the poly(NHMMA-UTU) hydrogels.
ISSN:0003-2670
1873-4324
DOI:10.1016/j.aca.2007.01.063