Growth and Destruction of PAH Molecules in Reactions with Carbon Atoms

  • Krasnokutski S
  • Huisken F
  • Jäger C
  • et al.
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Abstract

A very high abundance of atomic carbon in the interstellar medium (ISM), and the high reactivity of these species toward different hydrocarbon molecules including benzene, raise questions regarding the stability of polycyclic aromatic hydrocarbon (PAH) molecules in space. To test the efficiency of destruction of PAH molecules via reactions with atomic carbon, we performed a set of laboratory and computational studies of the reactions of naphthalene, anthracene, and coronene molecules with carbon atoms in the ground state. The reactions were investigated in liquid helium droplets at T  = 0.37 K and by quantum chemical computations. Our studies suggest that all small and all large catacondensed PAHs react barrierlessly with atomic carbon, and therefore should be efficiently destroyed by such reactions in a broad temperature range. At the same time, large compact pericondensed PAHs should be more inert toward such a reaction. In addition, taking into account their higher photostability, much higher abundances of pericondensed PAHs should be expected in various astrophysical environments. The barrierless reactions between carbon atoms and small PAHs also suggest that, in the ISM, these reactions could lead to the bottom-up formation of PAH molecules.

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Krasnokutski, S. A., Huisken, F., Jäger, C., & Henning, T. (2017). Growth and Destruction of PAH Molecules in Reactions with Carbon Atoms. The Astrophysical Journal, 836(1), 32. https://doi.org/10.3847/1538-4357/836/1/32

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