Simulation study of three new quadrupole ion funnels to improve low‐mass ion transmission
RationaleBy applying radio frequency (RF) and direct current (DC) voltages to corresponding ring electrodes, ion funnel (IF) can efficiently focus and transmit ions. However, IF has an inherent mass discrimination problem that will greatly limit low mass‐to‐charge (m/z) ion focusing and transmission...
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| Published in | Rapid communications in mass spectrometry Vol. 37; no. 24; p. e9648 |
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| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
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30.12.2023
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| Abstract | RationaleBy applying radio frequency (RF) and direct current (DC) voltages to corresponding ring electrodes, ion funnel (IF) can efficiently focus and transmit ions. However, IF has an inherent mass discrimination problem that will greatly limit low mass‐to‐charge (m/z) ion focusing and transmission. To improve the transmission efficiency (TE) of the IF, this paper explores three new profile quadrupole ion funnels (QIF).MethodsComputer simulations of the potential field distributions of QIFs and conventional IFs were performed to assess their focusing characteristics. To compare the TE, ion optics simulation programs SIMION and AXSIM were used to perform a series of simulations. Three QIF types (toroidal, cylindrical, and hyperbolic configurations) were used to improve ion TE, and their transmission and focus performance were also compared with conventional IF.ResultsBy simulating the trajectories of ions in the IF, the optimum electrical parameters for three new QIFs were obtained and compared with conventional IFs, with TE improvements recorded for m/z < 100 of 16%, 20%, and 13%.ConclusionsThe results indicate that studying these three new IF configurations has great research significance for improving sensitivity to low m/z ions in mass spectrometer instruments. |
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| AbstractList | By applying radio frequency (RF) and direct current (DC) voltages to corresponding ring electrodes, ion funnel (IF) can efficiently focus and transmit ions. However, IF has an inherent mass discrimination problem that will greatly limit low mass-to-charge (m/z) ion focusing and transmission. To improve the transmission efficiency (TE) of the IF, this paper explores three new profile quadrupole ion funnels (QIF).RATIONALEBy applying radio frequency (RF) and direct current (DC) voltages to corresponding ring electrodes, ion funnel (IF) can efficiently focus and transmit ions. However, IF has an inherent mass discrimination problem that will greatly limit low mass-to-charge (m/z) ion focusing and transmission. To improve the transmission efficiency (TE) of the IF, this paper explores three new profile quadrupole ion funnels (QIF).Computer simulations of the potential field distributions of QIFs and conventional IFs were performed to assess their focusing characteristics. To compare the TE, ion optics simulation programs SIMION and AXSIM were used to perform a series of simulations. Three QIF types (toroidal, cylindrical, and hyperbolic configurations) were used to improve ion TE, and their transmission and focus performance were also compared with conventional IF.METHODSComputer simulations of the potential field distributions of QIFs and conventional IFs were performed to assess their focusing characteristics. To compare the TE, ion optics simulation programs SIMION and AXSIM were used to perform a series of simulations. Three QIF types (toroidal, cylindrical, and hyperbolic configurations) were used to improve ion TE, and their transmission and focus performance were also compared with conventional IF.By simulating the trajectories of ions in the IF, the optimum electrical parameters for three new QIFs were obtained and compared with conventional IFs, with TE improvements recorded for m/z < 100 of 16%, 20%, and 13%.RESULTSBy simulating the trajectories of ions in the IF, the optimum electrical parameters for three new QIFs were obtained and compared with conventional IFs, with TE improvements recorded for m/z < 100 of 16%, 20%, and 13%.The results indicate that studying these three new IF configurations has great research significance for improving sensitivity to low m/z ions in mass spectrometer instruments.CONCLUSIONSThe results indicate that studying these three new IF configurations has great research significance for improving sensitivity to low m/z ions in mass spectrometer instruments. RationaleBy applying radio frequency (RF) and direct current (DC) voltages to corresponding ring electrodes, ion funnel (IF) can efficiently focus and transmit ions. However, IF has an inherent mass discrimination problem that will greatly limit low mass‐to‐charge (m/z) ion focusing and transmission. To improve the transmission efficiency (TE) of the IF, this paper explores three new profile quadrupole ion funnels (QIF).MethodsComputer simulations of the potential field distributions of QIFs and conventional IFs were performed to assess their focusing characteristics. To compare the TE, ion optics simulation programs SIMION and AXSIM were used to perform a series of simulations. Three QIF types (toroidal, cylindrical, and hyperbolic configurations) were used to improve ion TE, and their transmission and focus performance were also compared with conventional IF.ResultsBy simulating the trajectories of ions in the IF, the optimum electrical parameters for three new QIFs were obtained and compared with conventional IFs, with TE improvements recorded for m/z < 100 of 16%, 20%, and 13%.ConclusionsThe results indicate that studying these three new IF configurations has great research significance for improving sensitivity to low m/z ions in mass spectrometer instruments. |
| Author | Wang, Weimin Li, Zhe Xu, Fuxing Qiu, Chaohui Ding, Chuan‐Fan Yang, Liu Li, Xiaolong |
| Author_xml | – sequence: 1 givenname: Chaohui orcidid: 0009-0008-3181-2040 surname: Qiu fullname: Qiu, Chaohui organization: School of Material Science and Chemical Engineering Ningbo University Ningbo China – sequence: 2 givenname: Xiaolong surname: Li fullname: Li, Xiaolong organization: School of Material Science and Chemical Engineering Ningbo University Ningbo China – sequence: 3 givenname: Zhe surname: Li fullname: Li, Zhe organization: School of Material Science and Chemical Engineering Ningbo University Ningbo China – sequence: 4 givenname: Liu surname: Yang fullname: Yang, Liu organization: School of Material Science and Chemical Engineering Ningbo University Ningbo China – sequence: 5 givenname: Weimin orcidid: 0000-0001-8434-0835 surname: Wang fullname: Wang, Weimin organization: School of Material Science and Chemical Engineering Ningbo University Ningbo China, Key Laboratory of Advanced Mass Spectrometry and Molecular Analysis of Zhejiang Province, Institute of Mass Spectrometry Ningbo University Ningbo China – sequence: 6 givenname: Fuxing orcidid: 0000-0001-6120-5753 surname: Xu fullname: Xu, Fuxing organization: School of Material Science and Chemical Engineering Ningbo University Ningbo China, Key Laboratory of Advanced Mass Spectrometry and Molecular Analysis of Zhejiang Province, Institute of Mass Spectrometry Ningbo University Ningbo China – sequence: 7 givenname: Chuan‐Fan surname: Ding fullname: Ding, Chuan‐Fan organization: School of Material Science and Chemical Engineering Ningbo University Ningbo China, Key Laboratory of Advanced Mass Spectrometry and Molecular Analysis of Zhejiang Province, Institute of Mass Spectrometry Ningbo University Ningbo China |
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| Snippet | RationaleBy applying radio frequency (RF) and direct current (DC) voltages to corresponding ring electrodes, ion funnel (IF) can efficiently focus and transmit... By applying radio frequency (RF) and direct current (DC) voltages to corresponding ring electrodes, ion funnel (IF) can efficiently focus and transmit ions.... |
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| SubjectTerms | Configurations Direct current Funnels Ion optics Potential fields Quadrupoles Radio frequency Simulation Transmission efficiency |
| Title | Simulation study of three new quadrupole ion funnels to improve low‐mass ion transmission |
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