Study of Lu/Hf isotopic composition of zircons using a Neptune Plus multicollector inductively coupled plasma mass spectrometer with an NWR 213 laser ablation attachment

Q4 Chemistry

Analitika i Kontrol Pub Date : 2021-01-01 DOI:10.15826/analitika.2021.25.3.005

M. Chervyakovskaya, S. Votyakov, V. Chervyakovskiy

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引用次数: 1

Abstract

A technique of analyzing the isotopic composition of Lu and Hf and for determining the Lu/Hf and Hf/Hf isotopic ratios in zircons is presented using a Neptune Plus (Thermo Scientific) mass spectrometer with inductively coupled plasma with an NWR 213 (ESI) laser ablation attachment. On the example of Mud Tank, GJ-1, 91500, Plesovice and Temora-2 standard zircon samples, the uncertainty of a single measurement of the 176Hf/177Hf ratio has been obtained in the range of 0.002-0.008% in the form of 2σ (with a crater diameter of 50 μm; when it decreased to 25 μm the measurement uncertainty of the 176Hf/177Hf ratio increased by 1.5-2 times). Under the optimum parameters of the NexION 300S with NWR213 with the aim of increasing the locality of the sequential study of U/Pb and Lu/Hf isotope systems, a comparative characteristic of the application of two approaches has been obtained: in adjacent grain areas (approach 1) and in one crater (approach 2). The metrological characteristics of analyzing the isotopic composition of Lu and Hf and for determining the Lu/Hf and Hf/Hf isotopic ratios in zircons have been determined. To establish the application limits of the developed technique, the factor planning of the experiment has been developed. It was established that with a Lu/Hf ratio of 1/50 or more, the technique is not recommended to be applied due to the incorrect allowance of the isobaric effect. The procedures for measuring and calculating the Lu/Hf isotopic ratios of the isotope system in zircon have been tested on zircon grains (samples NP-46 and NP-47) of the Neplyuevsky pluton (South Urals). The data obtained was in satisfactory agreement with the data of the A. P. Karpinsky Russian Geological Research Institute (VSEGEI).

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利用带有NWR 213激光烧蚀装置的Neptune Plus多收集器电感耦合等离子体质谱仪研究锆石的Lu/Hf同位素组成

本文介绍了一种利用带有NWR 213 (ESI)激光烧蚀附件的电感耦合等离子体的Neptune Plus (Thermo Scientific)质谱仪分析锆石中Lu和Hf同位素组成以及确定Lu/Hf和Hf/Hf同位素比值的技术。以Mud Tank、GJ-1、91500、Plesovice和Temora-2标准锆石样品为例，单次测量176Hf/177Hf比值的不确定度在0.002 ~ 0.008%之间，为2σ(陨坑直径为50 μm;当其减小到25 μm时，176Hf/177Hf比值的测量不确定度提高了1.5-2倍。在NexION 300S NWR213的最佳参数下，以增加U/Pb和Lu/Hf同位素系统序列研究的局域性为目的，获得了相邻颗粒区(方法1)和同一陨石坑(方法2)两种方法应用的比较特征。确定了分析锆石中Lu和Hf同位素组成以及确定Lu/Hf和Hf/Hf同位素比值的计量学特征。为了确定所开发技术的应用范围，对实验进行了因子规划。结果表明，当Lu/Hf比值大于等于1/50时，由于等压效应的容限不正确，不建议采用该技术。对南乌拉尔地区Neplyuevsky岩体的锆石颗粒(样品NP-46和NP-47)进行了锆石同位素系统Lu/Hf同位素比值的测量和计算。所得资料与俄罗斯卡尔平斯基地质研究所(VSEGEI)的资料吻合良好。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Analitika i Kontrol Chemistry-Analytical Chemistry

CiteScore

0.90

自引率

0.00%

发文量

期刊介绍： Analitika i Kontrol is a scientific journal covering theoretical and applied aspects of analytical chemistry and analytical control, published since autumn 1997. Founder and publisher of the journal is the Ural Federal University named after the first President of Russia Boris Yeltsin (UrFU, Ekaterinburg).