Coincidence method for measuring the mass of neutral fragments emitted in a delayed fragmentation process from a singly charged molecule: Fragmentation pathway of adenine

Details Coincidence method for measuring the mass of neutral fragments emitted in a delayed fragmentation process from a singly charged molecule: Fragmentation pathway of adenine Coincidence method for measuring the mass of neutral fragments emitted in a delayed fragmentation process from a singly charged molecule: Fragmentation pathway of adenine

Jun 2008

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2008phrva..77f2513m&link_type=abstract

Physical Review A, vol. 77, Issue 6, id. 062513

Mathematics

Logic

10

Mass Spectra, Charge Transfer, Molecular And Chemical Processes And Interactions

Scientific paper

We have studied by mass spectrometry the fragmentation pathways of a molecule of biological interest: adenine H5C5N5(Ad) . The adenine molecules are ionized and excited in a single collision event mode with slow highly charged Ar8+ ions. A method based on the detection in coincidence of neutral and charged fragments has been developed for studying delayed fragmentation channels. The measured spectra show that the well-stated process, i.e., the successive emission of HCN fragments, is not the only fragmentation pathway. Although in the first fragmentation step the dominant channel is the emission of a neutral HCN0(88%) , in the second fragmentation step the branching ratios for the delayed emission of an HCN0 and an H2CNCN0 from the intermediate parent ion H4C4N4+[(Ad-HCN)+] are surprisingly similar, 54% and 46%, respectively. As a consequence, the role of these two latter channels in the reversal process, i.e., the formation of adenine in gas phase, should be considered. Ab initio calculations of molecular energies show that the energy levels of these two fragmentation channels are very close. This is in qualitative agreement with the measured comparable branching ratios.

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