使用 4.3 MHz 微型特斯拉线圈进行离子迁移谱分析的紧凑型等离子体电离。

IF 3.1 2区 化学 Q2 BIOCHEMICAL RESEARCH METHODS
Simon Höving, Hao Song, Luisa Speicher, Arthur Schiller, Joachim Franzke
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引用次数: 0

摘要

本研究介绍了一种用于离子迁移谱分析(IMS)的低成本 4.3 MHz 等离子体电离源,它采用了小型化特斯拉线圈。这种紧凑型设计与三维打印环烯烃共聚物(COC)外壳相结合,可提供稳定的定向等离子体,适合 IMS 应用中的电离。三维打印外壳可确保耐化学性和低脱气性,这对保持样品完整性至关重要。特斯拉线圈能产生频率为 4.3 MHz 的稳定正弦波,与不锈钢螺旋电极连接后能产生稳定的等离子体,可电离柠檬烯、MTBE、尼古丁、2-辛酮和异丙酚等分析物。测量以正离子和负离子模式进行。结果表明,特斯拉线圈是一种低成本、可靠的 IMS 电离源,其性能可与传统的 Ni63 β 发射器媲美。等离子体电离技术的这一进步有助于为各种分析应用提供更方便、更灵活的 IMS 系统。将三维打印技术融入该电离源的开发,凸显了定制化、低成本分析仪器的潜力,促进了实验室环境和商业应用的创新。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Compact Plasma Ionization for Ion Mobility Spectrometry Using a 4.3 MHz Miniature Tesla Coil.

In this study, a low-cost 4.3 MHz plasma ionization source for ion mobility spectrometry (IMS), utilizing a miniaturized Tesla coil, is presented. This compact design, combined with a 3D printed cyclic olefin copolymer (COC) housing, delivers a stable and directed plasma suitable for ionization in IMS applications. The 3D printed housing ensures chemical resistance and low off-gassing, which are crucial for maintaining sample integrity. The Tesla coil produces a consistent sine wave at 4.3 MHz, and when connected to stainless steel screw electrodes it generates a stable plasma capable of ionizing analytes such as limonene, MTBE, nicotine, 2-octanone, and propofol. Measurements were conducted in both positive and negative ion modes. The results demonstrate the Tesla coil's effectiveness as a low-cost and reliable ionization source for IMS, offering comparable performance to traditional Ni63 β-emitters. This advancement in plasma ionization technology could facilitate more accessible and flexible IMS systems for diverse analytical applications. The integration of 3D printing in the development of this ionization source underscores the potential for customized, low-cost analytical instrumentation, promoting innovation in laboratory environments and commercial applications.

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来源期刊
CiteScore
5.50
自引率
9.40%
发文量
257
审稿时长
1 months
期刊介绍: The Journal of the American Society for Mass Spectrometry presents research papers covering all aspects of mass spectrometry, incorporating coverage of fields of scientific inquiry in which mass spectrometry can play a role. Comprehensive in scope, the journal publishes papers on both fundamentals and applications of mass spectrometry. Fundamental subjects include instrumentation principles, design, and demonstration, structures and chemical properties of gas-phase ions, studies of thermodynamic properties, ion spectroscopy, chemical kinetics, mechanisms of ionization, theories of ion fragmentation, cluster ions, and potential energy surfaces. In addition to full papers, the journal offers Communications, Application Notes, and Accounts and Perspectives
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