Postionization Mass Spectrometry Imaging: Past, Present, and Future.

IF 6.9 2区化学 Q1 SPECTROSCOPY Mass Spectrometry Reviews Pub Date : 2024-11-18 DOI:10.1002/mas.21918

Xiaokang Guan, Qiao Lu, Shuxian Liu, Xiaowen Yan

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Abstract

Mass spectrometry imaging (MSI) technologies are widely used today to study the in situ spatial distributions for a variety of analytes. As these technologies advance, the pursuit of higher resolution in MSI has intensified. The limitation of direct desorption/ionization is its insufficient ionization, posing a constraint on the advancement of high-resolution MSI technologies. The introduction of postionization process compensates the low ionization efficiency caused by sacrificing the desorption area while pursuing high spatial resolution, resolving the conflict between high spatial resolution and high sensitivity in direct desorption/ionization method. Here, we discuss the sampling and ionization steps of MSI separately, and review the postionization methods in MSI according to three different sampling modes: laser sampling, probe sampling, and ion beam sampling. Postionization technology excels in enhancing ionization efficiency, boosting sensitivity, mitigating discrimination effect, simplifying sample preparation, and expanding the scope of applicability. These advantages position postionization technology as a promising tool for biomedical sciences, materials sciences, forensic analysis and other fields.

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电离质谱成像：过去、现在和未来。

如今，质谱成像（MSI）技术被广泛用于研究各种分析物的原位空间分布。随着这些技术的发展，人们更加追求 MSI 的高分辨率。直接解吸/电离技术的局限性在于电离不充分，制约了高分辨率 MSI 技术的发展。后电离过程的引入弥补了在追求高空间分辨率的同时牺牲解吸面积而导致的低电离效率，解决了直接解吸/电离法的高空间分辨率和高灵敏度之间的矛盾。在此，我们分别讨论了 MSI 的取样和电离步骤，并根据激光取样、探针取样和离子束取样三种不同的取样模式，综述了 MSI 中的电离方法。后电离技术在提高电离效率、提高灵敏度、减轻辨别效应、简化样品制备和扩大适用范围等方面具有突出优势。这些优势使后置电离技术成为生物医学、材料科学、法医分析和其他领域一种前景广阔的工具。

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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来源期刊

Mass Spectrometry Reviews 物理-光谱学

CiteScore

16.30

自引率

3.00%

发文量

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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