Improvement of the ion transfer efficiency in ion mobility spectrometry-mass spectrometry

2016 IEEE Workshop on Environmental, Energy, and Structural Monitoring Systems (EESMS) Pub Date : 2016-06-13 DOI:10.1109/EESMS.2016.7504828

Mahmoud Y. El-Shafie, Sally Bebawi, Hussein H. Zomor, F. Gunzer

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引用次数: 1

Abstract

Ion Mobility Spectrometry (IMS) is a well known technique applied whenever gases need to be analyzed. Prominent examples are environmental monitoring applications, including safety related applications when handling hazardous substances in production plants (e.g. oil/gas industry) or military applications. The advantages of IMS detectors are fast response times of a few milliseconds, very high sensitivity in the ppb range and a small and simple set up that allows for portability and robustness for even field deployment. Problematic is the relatively low sensitivity, i.e. a lot of substances yield the same signal response. In order to improve, IMS are often coupled with mass spectrometry (MS) devices. The main challenge in IMS-MS is that the ions have to be transferred from atmospheric pressure on the IMS side to vacuum on the MS side, which allows only for interfaces of very small diameters and thus introduces ion loss. In this paper we have analyzed with help of finite elements method simulations how the shape of that small diameter interface influences the transmission efficiency, and improvements of over 100% could be achieved.

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离子迁移谱-质谱法中离子传递效率的改进

离子迁移率光谱法(IMS)是一种众所周知的技术，适用于任何需要分析气体的场合。突出的例子是环境监测应用，包括在生产工厂(例如石油/天然气工业)或军事应用中处理有害物质时的安全相关应用。IMS探测器的优点是响应时间快，只有几毫秒，灵敏度在ppb范围内非常高，设置小而简单，可移植性和健壮性甚至适用于现场部署。问题是相对较低的灵敏度，即许多物质产生相同的信号响应。为了改进，IMS通常与质谱(MS)设备相结合。IMS-MS的主要挑战是离子必须从IMS侧的大气压转移到MS侧的真空，这只允许非常小直径的界面，从而引入离子损失。本文通过有限元模拟分析了该小直径界面的形状对传输效率的影响，可以实现100%以上的改进。

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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2016 IEEE Workshop on Environmental, Energy, and Structural Monitoring Systems (EESMS)

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