2004
DOI: 10.1002/jms.613
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Charge inversion mass spectrometry: dissociation of resonantly neutralized molecules

Abstract: Charge inversion mass spectrometry is an MS/MS method in which the electric charge of the precursor ions is opposite to that of the secondary product ions. Charge inversion mass spectrometry is classified into four types depending on the electric charge and time scale of collisions. Charge inversion mass spectrometry using collisions with gaseous targets in the keV energy collision range has provided insights into the structures and reactions of ions and neutral molecules. The characteristics of charge inversi… Show more

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Cited by 39 publications
(34 citation statements)
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References 284 publications
(447 reference statements)
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“…24 Most charge inversion experiments have been performed on sector instruments. 25 Albeit early work involved the use of forward geometry sector instruments, most charge inversion experiments have been conducted with reverse geometry sector instruments. Typically, the magnetic sector is set to select the negatively charged precursor ion, which undergoes charge inversion in a collision region between the magnetic and electric sectors to form the oppositely charged product ion.…”
Section: Reaction (12) Electron Transfermentioning
confidence: 99%
“…24 Most charge inversion experiments have been performed on sector instruments. 25 Albeit early work involved the use of forward geometry sector instruments, most charge inversion experiments have been conducted with reverse geometry sector instruments. Typically, the magnetic sector is set to select the negatively charged precursor ion, which undergoes charge inversion in a collision region between the magnetic and electric sectors to form the oppositely charged product ion.…”
Section: Reaction (12) Electron Transfermentioning
confidence: 99%
“…While relative abundances of the respective c-type and z-type ions by the LE-ETD in Figure 4a, b, and c are not same as those by HE-ETD in Figure 3a, b, and c, spectral features between the LE-ETD and the HE-ETD are similar for the respective precursors. In HE-ETD of the present work, the speed of the doubly charged ion with m/z of 750 u accelerated by 5 kV is 3.6 ϫ 10 4 m/s [23]. By assuming that the interaction region is twice of 6.8 ϫ 10 -10 m of the length at the Landau-Zener potential crossing evaluated for the Cs target [39], the interaction time between the collision partners is estimated to be 3.8 ϫ 10 -14 s. A period for dissociation was estimated from the length of 230 cm between the exit of the target chamber and the entrance of the MS-II is 6.5 s. This period is much shorter than the reaction time in the LE-ETD.…”
Section: Comparison Of the He-etd Using The Alkali Metal Target With mentioning
confidence: 79%
“…Charge inversion mass spectrometry using alkali metal targets [23][24][25][26][27][28][29] for singly protonated peptides and amino acids provided the information of the radical traps in the dissociation mechanism of the charge reduced peptides [28,30,31]. N-C␣ bond cleavages induced by electron-transfer processes of multiply charged peptides upon collision with alkali metals have been reported by Hvelplund and coworkers [32][33][34][35][36][37].…”
mentioning
confidence: 96%
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