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用于高场不对称波形离子迁移谱的微离子源的设计、制造与质谱研究

Design, Fabrication and Mass-spectrometric Studies of a Micro Ion Source for High-Field Asymmetric Waveform Ion Mobility Spectrometry.

作者信息

Li Hua, Yun Hongmei, Du Xiaoxia, Guo Chaoqun, Zeng Ruosheng, Jiang Yongrong, Chen And Zhencheng

机构信息

School of Life and Environmental Sciences, GuiLin University of Electronic Technology, Guilin 541004, China.

出版信息

Micromachines (Basel). 2019 Apr 27;10(5):286. doi: 10.3390/mi10050286.

DOI:10.3390/mi10050286
PMID:31035626
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6562519/
Abstract

A needle-to-cylinder electrode, adopted as an ion source for high-field asymmetric ion mobility spectrometry (FAIMS), is designed and fabricated by lithographie, galvanoformung and abformung (LIGA) technology. The needle, with a tip diameter of 20 μm and thickness of 20 μm, and a cylinder, with a diameter of 400 μm, were connected to the negative high voltage and ground, respectively. A negative corona and glow discharge were realized. For acetone with a density of 99.7 ppm, ethanol with a density of 300 ppm, and acetic ether with a density of 99.3 ppm, the sample gas was ionized by the needle-to-cylinder chip and the ions were detected by an LTQ XL™ (Thermo Scientific Corp.) mass spectrometer. The mass spectra show that the ions are mainly the protonated monomer, the proton bound dimer, and an ion-HO molecule cluster. In tandem with a FAIMS system, the FAIMS spectra show that the resolving power increases with an increase in the RF voltage. The obtained experimental results showed that the micro needle-to-cylinder chip may serve as a miniature, low cost and non-radioactive ion source for FAIMS.

摘要

一种采用光刻、电铸和注塑(LIGA)技术设计制造的针-筒电极,被用作高场非对称离子迁移谱(FAIMS)的离子源。针尖直径为20μm、厚度为20μm的针电极和直径为400μm的筒电极分别连接到负高压和地。实现了负电晕放电和辉光放电。对于密度为99.7ppm的丙酮、密度为300ppm的乙醇和密度为99.3ppm的乙酸乙酯,样品气由针-筒芯片电离,离子由LTQ XL™(赛默飞世尔科技公司)质谱仪检测。质谱表明离子主要是质子化单体、质子结合二聚体和离子-HO分子簇。与FAIMS系统串联时,FAIMS谱表明分辨率随射频电压的增加而提高。所得实验结果表明,微针-筒芯片可作为FAIMS的微型、低成本且无放射性的离子源。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/eef5/6562519/59ace92e4006/micromachines-10-00286-g010a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/eef5/6562519/cb9a2b2ed9a3/micromachines-10-00286-g009.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/eef5/6562519/59ace92e4006/micromachines-10-00286-g010a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/eef5/6562519/cb9a2b2ed9a3/micromachines-10-00286-g009.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/eef5/6562519/59ace92e4006/micromachines-10-00286-g010a.jpg

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