Laser-induced breakdown spectroscopy (LIBS); Gold ore; Gold; Silver; Conditional analysis;INSTRUMENTAL NEUTRON-ACTIVATION; RAY-FLUORESCENCE ANALYSIS; LA-ICP-MS; INDUCED PLASMA; QUANTITATIVE-ANALYSIS; PRECIOUS METALS; SULFIDE ORES; SPECTROMETRY; ABLATION; PYRITE

The performance of laser-induced breakdown spectroscopy (LIBS) to identify and quantify gold and silver in ore samples was evaluated. Ores from a gold-producing mine and samples artificially doped with Au and Ag solutions to previously defined concentrations (surrogates) were prepared as 50-mm pellets prior to LIBS analysis. Silver detection and intensity measurement was straightforward for concentrations from 0.4 to 43 mu g/g and from 1.1 to 375 mu/g in ore and surrogate samples, respectively. Au emission lines were not found after ensemble averageor accumulation of 100-single shot LIBS spectra of ore samples containing up to 9.5 mu/g Au. However, the Au signal was present in the spectra of surrogate samples, for which a detection limit of about 0.8 mu g/g was determined. When the number of sampling shots in ore samples increased, various single shot spectra registered Au emission lines. The number of spectra containing Au emission lines increased with the number of single shots. Those results, as well as scanning electron microscopy analysis of ore samples, suggest that the discrete analyte distribution as well as the inherent discrete characteristics associated to LIBS made the presence of gold in the LIBS spark an unlikely occurrence. The particle sampling rates (the percentage of laser pulses expected to sample at least one particle) were estimated for gold concentrations of 1.1 and 10.0 mu/g as 0.04% and 0.32%, respectively. A Monte Carlo simulation indicated that >100 gold-containing particles should be sampled to accurately represent the discrete character of gold in the ore. Sampling 100 such particles requires >10(5) laser pulses over a single pellet. Despite the fact that this rather large number of shots makes difficult to conduct conditional analysis on pellets, for some samples that withstood 5000 shots, gold quantification in ores was successfully achieved at concentrations as low as 1 mu/g. Results are encouraging and illustrate the applicability of LIBS to gold and silver in field semi-quantitative analysis. (C) 2017 Elsevier B.V. All rights reserved.