用于微束 B 和 Sr 同位素分析的潜在电气石参考材料

IF 3.1 2区化学 Q2 CHEMISTRY, ANALYTICAL

Journal of Analytical Atomic Spectrometry Pub Date : 2024-01-24 DOI:10.1039/D3JA00395G

Qijing Chen, Ri-Jing Wang, Hong-Xia Yu, Guanhong Zhu, Yan-Qiang Zhang, Xiao-Ping Xia, Zhong-Yuan Ren and Le Zhang

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引用次数: 0

摘要

电气石是一种硼硅酸盐，广泛存在于多种岩石中。由于电气石的硼含量较高，因此非常适合进行原位硼同位素分析。电气石含有适量的锶，但铷的含量很低，最近的研究表明这种矿物具有原位锶同位素分析的潜力。在此，我们介绍了三种新的天然电气石参考材料 GIGT、XJ-1 和 XJ-3，用于利用 LA-MC-ICP-MS 原位测量 B 和 Sr 同位素。对这三种电气石的 LA-MC-ICP-MS 分析表明，它们的硼同位素组成是同质的，GIGT 的平均δ11B 为 -12.63 ± 0.51‰（2SD，n=74），XJ-1 为 -11.90 ± 0.64‰（2SD，n=74），XJ-3 为 -11.63 ± 0.51‰（2SD，n=74）。64‰（2SD，n=78），XJ-3 为 -11.91±0.64‰（2SD，n=73），与溶液 MC-ICP-MS 测定的结果（-12.65±0.12，-11.90±0.24，-11.89±0.19）吻合。XJ-1 的 Sr 含量相对较高（~160 μg g-1），但 Rb/Sr 含量极低（< 0.0005）。对 XJ-1 进行的 176 次 LA-MC-ICP-MS 分析得出的 87Sr/86Sr 平均值为 0.70827 ± 0.00021（2SD），与溶液 MC-ICP-MS 测得的结果（0.708249 ± 0.000020，2SD）十分吻合。B同位素和Sr同位素的同质性表明，本研究中的三块碧玺都可以作为原位B同位素分析的主要参考材料，而XJ-1则适合作为LA-MC-ICP-MS原位Sr同位素分析的监测参考材料。

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Potential tourmaline reference materials for microbeam B and Sr isotopic analyses†

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Potential tourmaline reference materials for microbeam B and Sr isotopic analyses†

Tourmaline, a borosilicate, is widespread in many kinds of rocks. Due to its high boron content, tourmaline is quite suitable for in situ B isotope analysis. Tourmaline contains moderate Sr but very low Rb and recent studies show that this mineral has the potential for in situ Sr isotope analysis. Here, we present three new natural tourmaline reference materials GIGT, XJ-1 and XJ-3 for in situ B and Sr isotope measurement by LA-MC-ICP-MS. LA-MC-ICP-MS analyses for these three tourmalines show homogeneous B isotopic compositions with an average δ¹¹B of −12.63 ± 0.51‰ (2SD, n = 74) for GIGT, −11.90 ± 0.64‰ (2SD, n = 78) for XJ-1 and −11.91 ± 0.64‰ (2SD, n = 73) for XJ-3, which agree well with results determined by solution MC-ICP-MS (−12.65 ± 0.12, −11.90 ± 0.24, −11.89 ± 0.19). XJ-1 has relatively high Sr content (∼160 μg g⁻¹), but extremely low Rb/Sr (<0.0005). A total of 176 LA-MC-ICP-MS analyses of XJ-1 yield an average ⁸⁷Sr/⁸⁶Sr of 0.70827 ± 0.00021 (2SD), which is in good agreement with the result measured by solution MC-ICP-MS (0.708249 ± 0.000020, 2SD). The homogeneous B isotopes and Sr isotopes suggest that all three tourmalines presented in this study can serve as primary reference materials for in situ B isotope analysis and XJ-1 is suitable to be a monitor reference material for in situ Sr isotope analysis by LA-MC-ICP-MS.