介质势垒放电离子化中的离子化学:直接气相分析的最新进展。

IF 6.9 2区 化学 Q1 SPECTROSCOPY
Kseniya Dryahina, Miroslav Polášek, Juraj Jašík, Kristýna Sovová, Patrik Španěl
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引用次数: 0

摘要

采用低温等离子体的介质阻挡放电电离(DBDI)源已成为具有各种大气压电离过程的灵敏而高效的电离工具。在这篇综述中,我们总结了 DBDI 的历史发展概况,强调了气相离子化学的关键原理以及 DBDI 源内电离过程的基本机制。这些过程从放电气体中形成试剂离子或逸散原子开始,这取决于气体的性质(氦气、氮气、空气)以及水蒸气或其他化合物或掺杂物的存在。对分析物分子的电离过程进行了总结,包括潘宁电离、电子转移、质子转移和二级水合氢离子的配体转换。目前,DBDI-MS 方法在准确定量气态分析物方面面临挑战,限制了其在生物、环境和医学领域的广泛应用,因为在这些领域中,使用标准物质进行相对定量对于气态基质而言本身就很复杂。最后,我们提出了增强 DBDI-MS 分析能力的未来研究方向。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ion Chemistry in Dielectric Barrier Discharge Ionization: Recent Advances in Direct Gas Phase Analyses.

Dielectric barrier discharge ionization (DBDI) sources, employing low-temperature plasma, have emerged as sensitive and efficient ionization tools with various atmospheric pressure ionization processes. In this review, we summarize a historical overview of the development of DBDI, highlighting key principles of gas-phase ion chemistry and the mechanisms underlying the ionization processes within the DBDI source. These processes start with the formation of reagent ions or metastable atoms from the discharge gas, which depends on the nature of the gas (helium, nitrogen, air) and on the presence of water vapor or other compounds or dopants. The processes of ionizing the analyte molecules are summarized, including Penning ionization, electron transfer, proton transfer and ligand switching from secondary hydrated hydronium ions. Presently, the DBDI-MS methods face a challenge in the accurate quantification of gaseous analytes, limiting its broader application in biological, environmental, and medical realms where relative quantification using standards is inherently complex for gaseous matrices. Finally, we propose future avenues of research to enhance the analytical capabilities of DBDI-MS.

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来源期刊
Mass Spectrometry Reviews
Mass Spectrometry Reviews 物理-光谱学
CiteScore
16.30
自引率
3.00%
发文量
56
期刊介绍: The aim of the journal Mass Spectrometry Reviews is to publish well-written reviews in selected topics in the various sub-fields of mass spectrometry as a means to summarize the research that has been performed in that area, to focus attention of other researchers, to critically review the published material, and to stimulate further research in that area. The scope of the published reviews include, but are not limited to topics, such as theoretical treatments, instrumental design, ionization methods, analyzers, detectors, application to the qualitative and quantitative analysis of various compounds or elements, basic ion chemistry and structure studies, ion energetic studies, and studies on biomolecules, polymers, etc.
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