Contemporary ion mobility spectrometry applications and future trends towards environmental, health and food research: A review

离子迁移光谱法 相关性(法律) 灵活性(工程) 词汇表 化学 数据科学 纳米技术 领域(数学) 科学文献 生化工程 管理科学 计算机科学 质谱法 工程类 政治学 色谱法 古生物学 哲学 材料科学 法学 纯数学 统计 生物 语言学 数学
作者
Pedro Catalão Moura,Valentina Vassilenko
出处
期刊:International Journal of Mass Spectrometry [Elsevier BV]
卷期号:486: 117012-117012 被引量:47
标识
DOI:10.1016/j.ijms.2023.117012
摘要

Ion Mobility Spectrometry (IMS) has gained relevance in the field of analytical techniques over the past decades. If compared with well-established techniques like mass spectrometry or infrared spectroscopy, IMS is considerably less developed or employed in specific fields but presents promising results and a substantial margin for improvements. Its outstanding sensitivity and selectivity, analytical flexibility, instrumental versatility and almost real-time results capacity have contributed to elevate IMS among the main analytical techniques for the detection of volatile organic compounds. Due to its growth potential, it is mandatory to assess in which scientific fields IMS has played a relevant role in the past years of academic research and understand in which areas it can become equally important in the near future. For this purpose, hundreds of scientific works from the past ten years were addressed and the most relevant were reviewed in this work. Three main categories of IMS applications were defined to group the reviewed articles: Environmental and Safety Research, Health Research and Food Research. In addition, some original studies were specifically developed for this review paper, to act as elucidative examples. The working principle of the IMS is included for clarification purposes. A glossary of all the mentioned compounds was also included. Throughout the text, it is clear how relevant IMS has become and how diverse its applicability can be, ranging from simpler topics like fraud detection to more complex ones like pathologies diagnosis. It is safe to say that IMS has been, step by step, gaining relevance as an analytical technique and its potential for supporting many diverse scientific fields is evident.
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