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From Neutral Aniline to Aniline Trication: A Computational and Experimental Study
Journal of Physical Chemistry A (2020)
  • Gennady L. Gutsev, Florida Agricultural and Mechanical University
  • Katherine M. Tibbetts, Virginia Commonwealth University
  • H. A. Lopez Pena, Virginia Commonwealth University
  • S. L. McPherson, Virginia Commonwealth University
  • D. Ampadu Boateng, Virginia Commonwealth University
  • B. R. Ramachandran, Louisiana Tech University
  • Dr. Lavrenty G. Gutsev, Louisiana Tech University
We report theoretical computations and photoionization mass spectrometry measurements of aniline and its positively charged ions. The geometrical structures and properties of the neutral, singly, doubly, and triply positively charged aniline are computed using density functional theory with the generalized gradient approximation. At each charge, there are multiple isomers closely spaced in total energy. Whereas the lowest energy states of both neutral and cation have the same topology C6H5–NH2, the dication and trication have the C5NH5–CH2 topology with the nitrogen atom in the meta and para positions, respectively. We compute the dissociation pathways of all four species to NH or NH+ and NH2 or NH2+, depending on the initial charge of the aniline precursor. Dissociation leading to the formation of NH (from the neutral and cation) and NH+ (from the dication and trication) proceeds through multiple transition states. On the contrary, the dissociation of NH2 (from the neutral, cation) and NH2+ (from the dication and trication) is found to proceed without an activation energy barrier. The trication was found to be stable toward abstraction on NH+ and NH2+ by 0.96 eV and 0.18 eV, respectively, whereas the proton affinity of the trication is substantially higher, 1.98 eV. The mass spectra of aniline were recorded with 1300 nm, 20 fs pulses over the peak intensity range of 1 x 1013 W cm-2 to 4 x 1014 W cm-2. The analysis of the mass spectra suggests high stability of both dication and trication to fragmentation. The formation of the fragment NH+ and NH2+ ions is found to proceed via Coulomb explosion.
  • aniline,
  • cation,
  • dication,
  • trication,
  • mass-spectrometry,
  • fragmentation
Publication Date
March 30, 2020
Citation Information
Gennady L. Gutsev, Katherine M. Tibbetts, H. A. Lopez Pena, S. L. McPherson, et al.. "From Neutral Aniline to Aniline Trication: A Computational and Experimental Study" Journal of Physical Chemistry A (2020)
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