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使用MC-ICP-MS对青铜材料直接进行铜和铅同位素比率测量,无需柱化学分离。

Direct measurement of Cu and Pb isotopic ratios without column chemistry for bronze materials using MC-ICP-MS.

作者信息

Bao Zhian, Zong Chunlei, Liang Peng, Zhang Yan, Chen Kaiyun, Yuan Honglin

机构信息

State Key Laboratory of Continental Dynamics, Department of Geology, Northwest University, Xi'an 710069, China.

出版信息

Anal Methods. 2020 May 28;12(20):2599-2607. doi: 10.1039/d0ay00561d.

DOI:10.1039/d0ay00561d
PMID:32930286
Abstract

This study presents a practical method for high-precision Cu and Pb isotope determination without column chemistry for bronze materials using MC-ICP-MS. The standard-sample bracketing method combined with Ga internal normalization (SSBIN) was used to correct the instrumental mass bias during Cu isotopic analysis. The effects of acidity mismatch, concentration mismatch, and matrix effect were rigorously evaluated using a Nu Plasma II MC-ICP-MS in the wet plasma mode. The precision and accuracy of this method were verified by measurements of the Chinese bronze standard material GBW02137 over four months. The δ65Cu of GBW02137 was 0.04 ± 0.02‰ (2s standard deviation, n = 44) relative to NIST SRM 976, which is consistent with the recommended value (0.04 ± 0.02‰). GBW02137 could serve as a potential bracketing standard and quality control sample for in situ Cu isotope measurements of ancient bronze artifacts. The 205Tl/203Tl ratio of 2.3889 and an exponential law were used to correct the instrumental mass discrimination during Pb isotopic analysis. The Pb isotopic ratios determined without column chemistry were within 0.04% of the reference values. Therefore, the method for the direct determination of Cu and Pb isotope presented here is a promising tool for research on bronze materials owing to the chemistry without columns, high precision and accuracy, and rapidity.

摘要

本研究提出了一种使用MC-ICP-MS对青铜材料进行高精度铜和铅同位素测定的实用方法,无需柱化学分离。在铜同位素分析过程中,采用结合镓内标归一化的标准-样品分段法(SSBIN)校正仪器质量偏差。使用Nu Plasma II MC-ICP-MS在湿等离子体模式下,严格评估了酸度不匹配、浓度不匹配和基体效应的影响。通过对中国青铜标准物质GBW02137进行为期四个月的测量,验证了该方法的精密度和准确度。相对于NIST SRM 976,GBW02137的δ65Cu为0.04±0.02‰(2s标准偏差,n = 44),与推荐值(0.04±0.02‰)一致。GBW02137可作为古代青铜器原位铜同位素测量的潜在分段标准和质量控制样品。在铅同位素分析过程中,使用2.3889的205Tl/203Tl比值和指数定律校正仪器质量歧视。未经柱化学分离测定的铅同位素比值在参考值的0.04%以内。因此,本文提出的直接测定铜和铅同位素的方法,因其无需柱化学、高精度和准确度以及快速性,是青铜材料研究的一种有前景的工具。

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引用本文的文献

1
Copper Isotope Ratio Measurements of Cu-Dominated Minerals Without Column Chromatography Using MC-ICP-MS.使用MC-ICP-MS对以铜为主的矿物进行无柱色谱法的铜同位素比率测量。
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