重力同位素混合物法的进步，使得对尖峰纯度的了解变得多余。

IF 3.8 2区化学 Q1 BIOCHEMICAL RESEARCH METHODS Analytical and Bioanalytical Chemistry Pub Date : 2024-10-01 Epub Date: 2024-08-23 DOI:10.1007/s00216-024-05465-9

Lukas Flierl, Olaf Rienitz, Jochen Vogl, Axel Pramann

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引用次数: 0

摘要

重力同位素混合法是确定绝对同位素比值的主要方法。不过，这种方法取决于是否有合适的尖峰材料以及对其纯度的了解。确定尖峰材料的纯度既繁琐又耗费人力。在本出版物中，介绍了重力同位素混合物法的一种改进方法，该方法无需测定尖峰材料的纯度。该方法将质谱法和离子色谱法结合在一起，从而实现了一种与样品纯度无关的方法。手稿中介绍了使用铜或锂等双同位素系统的数学背景和新方法的基本思想。

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An advancement of the gravimetric isotope mixture method rendering the knowledge of the spike purity superfluous.

The gravimetric isotope mixture method is the primary method to determine absolute isotope ratios. This method, however, depends on the existence of suitable spike materials and knowledge of their purities. Determining the purity of the spikes can be tedious and labour-intensive. In this publication, an advancement of the gravimetric isotope mixture method, rendering the determination of the purity of the spike materials unnecessary, is presented. The advancement combines mass spectrometry and ion chromatography leading to an approach being independent of the purity of the spike materials. In the manuscript the mathematical background and the basic idea of the novel approach are described using a two-isotope system like copper or lithium.

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来源期刊

Analytical and Bioanalytical Chemistry 化学-分析化学

CiteScore

8.00

自引率

4.70%

发文量

638

审稿时长

2.1 months

期刊介绍： Analytical and Bioanalytical Chemistry’s mission is the rapid publication of excellent and high-impact research articles on fundamental and applied topics of analytical and bioanalytical measurement science. Its scope is broad, and ranges from novel measurement platforms and their characterization to multidisciplinary approaches that effectively address important scientific problems. The Editors encourage submissions presenting innovative analytical research in concept, instrumentation, methods, and/or applications, including: mass spectrometry, spectroscopy, and electroanalysis; advanced separations; analytical strategies in “-omics” and imaging, bioanalysis, and sampling; miniaturized devices, medical diagnostics, sensors; analytical characterization of nano- and biomaterials; chemometrics and advanced data analysis.