DETERMINATION OF THE PRECIOUS METALS IN MILLIGRAM SAMPLES OF SULFIDESAND OXIDES USING INDUCTIVELY-COUPLED PLASMA-MASS SPECTROMETRY AFTER ION-EXCHANGE PRECONCENTRATION
Zx. Chen et al., DETERMINATION OF THE PRECIOUS METALS IN MILLIGRAM SAMPLES OF SULFIDESAND OXIDES USING INDUCTIVELY-COUPLED PLASMA-MASS SPECTROMETRY AFTER ION-EXCHANGE PRECONCENTRATION, Journal of analytical atomic spectrometry, 11(9), 1996, pp. 805-809
A method for the quantitative separation of six precious metals (Ru, P
h, Pd, Ir, Pt and Au) from large amounts of; transition elements (espe
cially Fe, Ni, Cu and Zn) in dilute hydrochloric acid solutions using
a strongly acidic cation exchange-resin, Amberlite CG-120, is describe
d. The method has been applied to the determination of precious metals
in small amounts (2-20 mg)of high purity sulfide and oxide mineral se
parates using inductively coupled plasma mass spectrometry (ICP-MS). S
olid limits of detection for a 20 mg sample are less than 4 ng g(-1) f
or Ru, Ph, Ir, Pt, and Au, and 29 ng g-1. for Pd. Precision and accura
cy are demonstrated by replicate analyses of sub-samples of a nickel s
ulfide fire assay bead of the reference material, SARM-7, which show g
ood agreement with certified values and relative standard deviations o
f less than 8%. Poorer precision and accuracy was obtained for Au beca
use of heterogeneity and inefficient collection in the nickel sulfide
bead. Analyses of sulfide and magnetite minerals from Sudbury, Canada,
copper-nickel sulphide ores demonstrate the method's usefulness in st
udying the genesis of precious metal ore deposits.