IDSimF: An Open-Source Framework for the Simulation of Molecular Ion Dynamics in Mass Spectrometry and Ion Mobility Spectrometry

IF 3.1 2区化学 Q2 BIOCHEMICAL RESEARCH METHODS Journal of the American Society for Mass Spectrometry Pub Date : 2024-06-03 DOI:10.1021/jasms.4c00054

Michelle Rajkovic, Sanna Benter, Maja Hammelrath, Marco Thinius, Thorsten Benter and Walter Wißdorf*,

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Abstract

The development of mass spectrometric and ion mobility devices heavily depends on a comprehensive understanding of the behavior of ions within such systems. Therefore, numerical modeling of ion paths helps to optimize and verify existing devices, and contributes to the development of innovative ion optical systems and multipole geometries. This Article introduces IDSimF (Ion Dynamics Simulation Framework), an open-source simulation tool tailored to the nonrelativistic dynamics of molecular ions in mass and ion mobility spectrometry applications. Addressing limitations in existing software packages, as for example SIMION, OpenFOAM, and COMSOL, IDSimF offers a specialized platform for simulating ion trajectories in electric fields. IDSimF efficiently accounts for space charge effects and considers various ion-neutral collision models while handling chemical kinetics. The framework is highly modular with reduced user input configuration complexity and aims to support simulation efforts in development and optimization of in mass spectrometers.

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IDSimF：质谱法和离子迁移谱法中分子离子动力学模拟的开源框架。

质谱和离子迁移装置的开发在很大程度上取决于对此类系统中离子行为的全面了解。因此，离子路径的数值建模有助于优化和验证现有装置，并有助于开发创新的离子光学系统和多极几何结构。本文介绍 IDSimF（离子动力学仿真框架），这是一种开源仿真工具，专门针对质谱和离子迁移谱应用中分子离子的非相对论动力学而定制。针对现有软件包（如 SIMION、OpenFOAM 和 COMSOL）的局限性，IDSimF 为模拟电场中的离子轨迹提供了一个专门的平台。IDSimF 有效地考虑了空间电荷效应，并在处理化学动力学的同时考虑了各种离子中性碰撞模型。该框架高度模块化，降低了用户输入配置的复杂性，旨在为质谱仪的开发和优化提供仿真支持。

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

Journal of the American Society for Mass Spectrometry 化学-分析化学

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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