Automated extraction of a five-year LA-ICP-MS trace element dataset of ten common glass and carbonate reference materials : long-term data quality, optimisation and laser cell homogeneity
Abstract
LA-ICP-MS is increasingly applied to obtain quantitative multi-element data with minimal sample preparation, usually achieved by calibration using reference materials. However, some ubiquitous reference materials, e.g., the NIST SRM 61x series glasses, suffer from reported value uncertainties for certain elements. Moreover, no long-term dataset of analyses conducted over a range of ablation and tuning conditions exists. Thus, there has been little rigorous examination of the extent to which offsets between measured and reported values are the result of error in these values rather than analytically induced fractionation. We present new software (‘LA-MINE’), capable of extracting LA-ICP-MS data with no user-input, and apply this to our system, yielding over five years of data (~ 5700 analyses of ten glass and carbonate reference materials). We examine the relative importance of systematic analytical bias and possible error in reported values, through a mass-specific breakdown of fourteen of the most commonly determined elements. Furthermore, these data, obtained under a wide range of different ablation conditions, enable specific recommendations of how data quality may be improved, e.g., the role of diatomic gas, the effect of differential inter-glass fractionation factors, and choice of transport tubing material. Finally, these data demonstrate that the two-volume Laurin ablation cell is characterised by no discernible spatial heterogeneity in measured trace element ratios.
Citation
Evans , D & Müller , W 2018 , ' Automated extraction of a five-year LA-ICP-MS trace element dataset of ten common glass and carbonate reference materials : long-term data quality, optimisation and laser cell homogeneity ' , Geostandards and Geoanalytical Research , vol. Early View . https://doi.org/10.1111/ggr.12204
Publication
Geostandards and Geoanalytical Research
Status
Peer reviewed
ISSN
1751-908XType
Journal article
Description
DE acknowledges a NERC studentship whilst at RHUL. LA-ICP-MS work at RHUL over the years was co-funded by SRIF3 (HEFCE) and NERC (NERC CC073) equipment grants, NERC and RHUL PhD studentships, EU-FP7-ITN (‘Throughflow’), Leverhulme Trust grants as well as funding from Resonetics, Laurin Technic and Australian Scientific Instruments (ASI).Collections
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