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利用激光剥蚀多接收电感耦合等离子体质谱仪(LA-MC-ICP-MS)对造岩磷灰石中的锶同位素进行高空间分辨率(10-50微米)分析。

High spatial resolution (10-50 μm) analysis of Sr isotopes in rock-forming apatite by LA-MC-ICP-MS.

作者信息

Buzenchi Anda, Moreira Hugo, Bruguier Olivier, Bosch Delphine, Dhuime Bruno

机构信息

Géosciences Montpellier, CNRS & Université de Montpellier Bât 22 CC60, Place Eugene Bataillon 34095 Montpellier Cedex 5 France

出版信息

J Anal At Spectrom. 2023 Aug 29;38(10):2113-2126. doi: 10.1039/d3ja00177f. eCollection 2023 Oct 4.

DOI:10.1039/d3ja00177f
PMID:38014374
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10549232/
Abstract

Sr isotopes analysis of apatite by LA-(MC)-ICP-MS is challenged by the difficulty to monitor and correct isobaric interferences from atomic and polyatomic ions. We present a new routine procedure for analysing rock-forming apatites with a Thermo Scientific Neptune XT MC-ICP-MS coupled with a Teledyne Cetac Analyte Excite+ 193 nm laser ablation system. Five apatite standards that cover a large range of REE/Sr ratios were selected, and their Sr/Sr ratios were measured in solution after dissolution and purification of Sr [Durango: 0.706321(5); Madagascar: 0.711814(5); Slyudyanka; 0.707705(4); Sumé: 0.707247(4); and Ipirá: 0.710487(4)]. The optimisation of both instrument setup and data reduction schemes was achieved through repeated measurements of calibration solutions and of apatite standards at four different rectangular-shaped laser ablation beam sizes (50 × 50, 25 × 25, 13 × 13 and 10 × 10 μm). Two complementary methods were developed for data reduction: , which corrects measured intensities for gas blank and instrumental mass bias only; and , which additionally corrects for isobaric interferences of Rb, Er, Yb, CaCa, CaCa, CaCa and CaCa. A precision of 100 ppm (2 s.e.) can be achieved on the Sr/Sr ratio with a 50 μm laser ablation beam when using , and it remains better than 3000 ppm at 10 μm with . gives precise and accurate Sr/Sr ratios when Yb is below the global limit of detection (with LOD = 3 s.d. of the means of all gas blanks measurements). When Yb is above the LOD, should be preferred as it provides more accurate Sr/Sr ratios. Overall, this study offers a robust and reliable approach for LA-MC-ICP-MS analysis of Sr isotopes in rock-forming apatite at a high spatial resolution ( down to 10 μm), overcoming previous limitations associated with instrumental set up and data reduction.

摘要

通过激光烧蚀(MC)-电感耦合等离子体质谱法(LA-(MC)-ICP-MS)对磷灰石进行锶同位素分析面临挑战,因为难以监测和校正来自原子离子和多原子离子的同量异位素干扰。我们提出了一种新的常规方法,用于使用赛默飞世尔科技的海王星XT MC-ICP-MS与Teledyne Cetac Analyte Excite+ 193纳米激光烧蚀系统相结合来分析造岩磷灰石。选择了五种涵盖广泛稀土元素/锶(REE/Sr)比值范围的磷灰石标准物质,并在溶解和纯化锶后在溶液中测量它们的锶/锶比值[杜兰戈:0.706321(5);马达加斯加:0.711814(5);斯柳甸卡;0.707705(4);苏梅:0.707247(4);以及伊皮拉:0.710487(4)]。通过在四种不同的矩形激光烧蚀束尺寸(50×50、25×25、13×13和10×10微米)下重复测量校准溶液和磷灰石标准物质,实现了仪器设置和数据处理方案的优化。开发了两种互补的数据处理方法:一种仅校正气体空白和仪器质量偏差的测量强度;另一种还校正铷、铒、镱、CaCa、CaCa、CaCa和CaCa的同量异位素干扰。当使用50微米激光烧蚀束时,使用第一种方法在锶/锶比值上可实现100 ppm(2标准误差)的精度,而在10微米时使用第二种方法精度仍优于3000 ppm。当镱低于全球检测限(检测限=所有气体空白测量平均值的3倍标准差)时,第一种方法能给出精确准确的锶/锶比值。当镱高于检测限时,应优先选择第二种方法,因为它能提供更准确的锶/锶比值。总体而言, 本研究为在高空间分辨率(低至10微米)下对造岩磷灰石中的锶同位素进行LA-MC-ICP-MS分析提供了一种稳健可靠的方法,克服了先前与仪器设置和数据处理相关的限制。

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