使用矩阵匹配标准准确报告红宝石和蓝宝石中关键微量元素

IF 1.6 3区地球科学 Q2 MINERALOGY

Gems & Gemology Pub Date : 2018-02-01 DOI:10.5741/GEMS.53.4.438

J. Stone‐Sundberg, Timothy M. Thomas, Ziyin Sun, Y. Guan, Zachary Cole, R. Equall, J. Emmett

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引用次数: 16

摘要

为了提高红宝石和蓝宝石中微量元素分析的准确性和效率，创建了包含基体匹配刚玉的标准集，该标准集具有铍、镁、硅、钛、钒、铬、铁和镓的目标水平。超高纯刚玉也被纳入为“真正的零基质”。据我们所知，这些集合包含了当今刚玉中关键微量元素的最准确标准。该标准旨在涵盖天然红宝石和蓝宝石中典型特征的主要微量元素的最佳范围。此外，与激光烧蚀-电感耦合等离子体-四极杆质谱法（LA-ICP-QMS）相比，我们使用二次离子质谱法（SIMS）的卓越质量分辨能力，成功地从^（27）Al^1H^+峰中分辨出^（28）Si^+峰，从而能够准确地定量刚玉中的硅。

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Accurate Reporting of Key Trace Elements in Ruby and Sapphire Using Matrix-Matched Standards

To improve the accuracy and efficiency of trace element analysis in ruby and sapphire, standards sets containing matrix-matched corundum with targeted levels of beryllium, magnesium, silicon, titanium, vanadium, chromium, iron, and gallium were created. Ultra-high-purity corundum was also incorporated as a “true matrix zero.” To our knowledge, these sets contain the most accurate standards for the key trace elements in corundum today. The standards were designed to cover the optimal range of the main trace elements typically characterized in natural ruby and sapphire. Additionally, we were able to accurately quantify silicon in corundum by successfully resolving the ^(28)Si^+ peak from the ^(27)Al^1H^+ peak using the superior mass resolving power of secondary ion mass spectrometry (SIMS) as compared to laser ablation–inductively coupled plasma–quadrupole mass spectrometry (LA-ICP-QMS).

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来源期刊

Gems & Gemology 地学-矿物学

CiteScore

2.90

自引率

19.20%

发文量

期刊介绍： G&G publishes original articles on gem materials and research in gemology and related fields. Manuscript topics include, but are not limited to: Laboratory or field research; Comprehensive reviews of important topics in the field; Synthetics, imitations, and treatments; Trade issues; Recent discoveries or developments in gemology and related fields (e.g., new instruments or identification techniques, gem minerals for the collector, and lapidary techniques); Descriptions of notable gem materials and localities; Jewelry manufacturing arts, historical jewelry, and museum exhibits.