Plasma Spectrochemistry in Material Sciences – Theory and Recent Applications

S. Richter
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Abstract

This paper provides an overview about state of the art methods in the field of plasma spectrometry and its application in material science. Different types of plasmas with their special characteristics for various applications are described. Indirect analytical methods involving sample digestion and often also analyte/matrix separation prior to analyzing the samples still represent the most important routine methods. Here, plasma optical emission and mass spectrometry are the most frequently used determination techniques with a wide variety of instruments commercially available. To avoid the risk of analyte loss or of contaminations during an often time consuming and laborious sample preparation, the use of techniques with direct solid sampling is considered an attractive alternative for the analysis of many materials. A survey on applications with a special focus on direct solid sampling techniques such as GDMS, GD-OES, LA-ICPMS, ETV-ICPMS, ETV-ICP-OES, DC-Arc is given. Different possible calibration strategies are discussed.
等离子体光谱化学在材料科学中的理论和最新应用
本文综述了等离子体光谱法的研究现状及其在材料科学中的应用。描述了不同类型的等离子体及其在各种应用中的特殊特性。间接分析方法包括样品消化和分析前的分析物/基质分离,仍然是最重要的常规方法。在这里,等离子体光学发射和质谱是最常用的测定技术,有各种各样的商用仪器。为了避免分析物丢失或污染的风险,在通常耗时和费力的样品制备过程中,使用直接固体取样技术被认为是许多材料分析的一个有吸引力的替代方案。综述了直接固体采样技术的应用,特别是GDMS、GD-OES、LA-ICPMS、ETV-ICPMS、ETV-ICP-OES、DC-Arc等。讨论了各种可能的校准策略。
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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