Issue 10, 2022

High-precision analysis of calcium isotopes using a Nu Sapphire collision cell (CC)-MC-ICP-MS

Abstract

This study presents high-precision analyses of calcium (Ca) isotope ratios using a collision-cell multi-collector inductively coupled plasma mass spectrometer (CC-MC-ICP-MS, Nu Sapphire). This instrument allows Ca isotope measurement in the low resolution mode, requiring much less sample compared with TIMS and conventional MC-ICP-MS, and has additional measurement capability of both radiogenic (ε40Ca) and stable isotope ratios (δ44/40Ca and δ44/42Ca). The effects of several factors on the precision and accuracy of Ca isotopic data were evaluated, including the total Ca concentration, Ca intensity mismatch between the sample and standard, HNO3 molarity mismatch between the sample and standard, and the presence of matrix elements. High precision was obtained on 100 ng g−1 Ca samples (i.e., for 6 replicates ∼600 ng of Ca). Accurate measurements require the following conditions: (1) Ca intensities matched within 3% between the sample and standard, (2) low contents of Sr, Mg and Cr (Sr/Ca, Mg/Ca and Cr/Ca ratios need to be lower than 0.01%, and K/Ca, Al/Ca, Ti/Ca and Cr/Ca ratios <1%). Eleven standard reference materials analyzed using the established method yield highly consistent Ca isotope results with literature values. The long-term external precisions are higher than 0.07‰ (2 SD) for δ44/40Ca and higher than 0.05‰ (2 SD) for δ44/42Ca. The slope of the fractionation line between δ44/40Ca and δ44/42Ca is 1.9616 ± 0.0794, within the error of the slope value from the exponential law.

Graphical abstract: High-precision analysis of calcium isotopes using a Nu Sapphire collision cell (CC)-MC-ICP-MS

Supplementary files

Article information

Article type
Paper
Submitted
04 May 2022
Accepted
01 Sep 2022
First published
21 Sep 2022

J. Anal. At. Spectrom., 2022,37, 2111-2121

High-precision analysis of calcium isotopes using a Nu Sapphire collision cell (CC)-MC-ICP-MS

B. Gao, B. Su, W. Li, M. Yuan, J. Sun, Y. Zhao and X. Liu, J. Anal. At. Spectrom., 2022, 37, 2111 DOI: 10.1039/D2JA00150K

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