Isotope analysis of highly enriched “silicon-28” by high-resolution inductively coupled plasma mass spectrometry using an internal standard

Q4 Chemistry Analitika i Kontrol Pub Date : 2021-01-01 DOI:10.15826/analitika.2021.25.2.009
P. A. Otopkova, A. M. Potapov, A. Suchkov, A. D. Bulanov, A. Y. Lashkov
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Abstract

In order to study the isotopic effects in semiconductor materials, single crystals of high chemical and isotopic purity are required. The reliability of the obtained data on the magnitude and the direction of isotopic shifts depends on the accuracy of determining the concentration of all stable isotopes. In the isotopic analysis of enriched “silicon-28” with a high degree of enrichment (> 99.99%), it is necessary to determine the impurities of 29Si and 30Si isotopes at the level of 10-3 ¸ 10-5 at. %. At this concentration level, these isotopes can be considered as impurities. It is difficult to achieve high measurement accuracy with simultaneous registration of the main and “impurity” isotopes in such a wide range of concentrations. The registration of analytical signals of silicon isotopes must be carried out in the solutions with different matrix concentrations. The use of the solutions with the high concentration of the matrix element requires the introduction of corrections for matrix noise and the drift of the instrument sensitivity during the measurement. It is possible to reduce the influence of the irreversible non-spectral interference and sensitivity drift by using the method of internal standardization. The inconsistency of the literature data on the selection criteria for the internal standard required studying the behavior of the signals of the “candidates for the internal standard” for the ELEMENT 2 single-collector high-resolution inductively coupled plasma mass spectrometer on the matrix element concentration and the nature of the solvent, as well as on the solution nebulizing time. Accounting for the irreversible non-spectral matrix noise and instrumental drift in isotopic analysis of enriched “silicon-28” and initial 28SiF4 by inductively coupled plasma mass spectrometry had allowed us to reduce by 3-5 times the random component and by more than an order of magnitude the systematic component of the measurement error in comparison with the external standard method. This made it possible to carry out, with sufficient accuracy, the operational control of the isotopic composition of enriched “silicon-28”, both in the form of silicon tetrafluoride and polycrystalline silicon obtained from it, using a single serial device in the range of isotopic concentrations 0.0001–99.999%.
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高富集“硅-28”的同位素分析高分辨率电感耦合等离子体质谱使用内标准
为了研究半导体材料中的同位素效应,需要具有高化学纯度和高同位素纯度的单晶。所获得的同位素位移幅度和方向数据的可靠性取决于确定所有稳定同位素浓度的准确性。在高富集程度(> 99.99%)的富集“硅-28”同位素分析中,需要测定10-3、10-5 at水平上29Si和30Si同位素的杂质。%。在这种浓度水平下,这些同位素可以被认为是杂质。在如此大的浓度范围内同时登记主同位素和“杂质”同位素,很难达到很高的测量精度。硅同位素分析信号的配准必须在不同基质浓度的溶液中进行。使用具有高浓度矩阵元素的溶液需要引入对矩阵噪声和测量期间仪器灵敏度漂移的校正。采用内标准化方法可以减小不可逆非光谱干扰和灵敏度漂移的影响。由于内标选择标准的文献数据不一致,需要研究ELEMENT 2单收集器高分辨率电感耦合等离子体质谱仪“内标候选者”信号在基质元素浓度、溶剂性质以及溶液雾化时间上的行为。考虑到电感耦合等离子体质谱法在富集“硅-28”和初始28SiF4同位素分析中的不可逆非谱矩阵噪声和仪器漂移,与外部标准方法相比,我们可以将测量误差的随机分量减少3-5倍,系统分量减少一个数量级以上。这使得在0.0001-99.999%的同位素浓度范围内,使用单个串行装置,可以以足够的精度对富集的"硅-28 "的同位素组成进行操作控制,包括以四氟化硅的形式和从中获得的多晶硅。
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来源期刊
Analitika i Kontrol
Analitika i Kontrol Chemistry-Analytical Chemistry
CiteScore
0.90
自引率
0.00%
发文量
15
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).
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