A comparative study of sample dissolution techniques and plasma-based instruments for the precise and accurate quantification of REEs in mineral matrices

A comparative study of sample dissolution techniques and plasma-based instruments for the precise and accurate quantification of REEs in mineral matrices

The recent commercialisation of inductively coupled plasma tandem mass spectrometric (ICP-MS/MS) instruments has provided analytical chemists with a new tool to properly quantify atomic composition in a variety of matrices with minimal sample preparation. In this article, we report on our assessment...

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Veröffentlicht in:Analytica chimica acta 2017-04, Vol.961, p.33-41
Hauptverfasser: Whitty-Léveillé, Laurence, Turgeon, Keven, Bazin, Claude, Larivière, Dominic
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Sprache:eng
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Alkaline fusion
Inductively coupled plasma tandem mass spectrometry (ICP-MS/MS)
Microwave digestion
Microwave induced plasma atomic emission spectroscopy (MIP-AES)
Rare earth elements
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Turgeon, Keven
Bazin, Claude
Larivière, Dominic
description The recent commercialisation of inductively coupled plasma tandem mass spectrometric (ICP-MS/MS) instruments has provided analytical chemists with a new tool to properly quantify atomic composition in a variety of matrices with minimal sample preparation. In this article, we report on our assessment of the compatibility of 3 sample preparation techniques (open-vessel acid digestion, microwave digestion and alkaline fusion) for the quantification of rare earth elements (REEs) in mineral matrices. The combination of the high digestion temperatures (1050 °C) and using LiBO2 as a flux was the most effective strategy for the digestion of all rare earth elements in mineral matrices and was compatible with ICP-MS/MS measurements. We also assessed the analytical performances of ICP-MS/MS against other plasma-based instrumentation (microwave induced plasma and inductively coupled plasma atomic emission spectroscopy (MIP-AES and ICP-AES, respectively) and single quadrupole inductively coupled plasma mass spectrometry (ICP-MS). The comparative study showed that the concentrations obtained by ICP-MS/MS are in excellent agreement with the certified reference material values, and much more suited than the other analytical techniques tested for the quantification of REEs, which exhibited low detectability and/or spectral interferences for some elements/isotopes. Finally, the ruggedness of the analytical protocol proposed which combines a rapid sample dissolution step performed by an automated fusion unit and an ICP-MS/MS as a detector was established using various certified mineral matrices containing variable levels of REEs. [Display omitted] •Three types of digestion methods were tested.•Four types of analytical techniques were compared.•Elimination of the spectral interferences encountered in ICP-MS was achieved by the use of Tandem ICP-MS.•Robustness of the analytical procedure was successfully evaluate on four types of certified reference material.
doi_str_mv 10.1016/j.aca.2017.01.045
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subjects Alkaline fusion
Inductively coupled plasma tandem mass spectrometry (ICP-MS/MS)
Microwave digestion
Microwave induced plasma atomic emission spectroscopy (MIP-AES)
Rare earth elements
title A comparative study of sample dissolution techniques and plasma-based instruments for the precise and accurate quantification of REEs in mineral matrices
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