The sequence to hydrogenate coronene cations: A journey guided by magic numbers

Stéphanie Cazaux, Leon Boschman, Nathalie Rougeau, Geert Reitsma, Ronnie Hoekstra, Dominique Teillet-Billy, Sabine Morisset, Marco Spaans, Thomas Schlathölter

Research output: Contribution to journalArticleAcademicpeer-review

34 Citations (Scopus)
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Abstract

The understanding of hydrogen attachment to carbonaceous surfaces is essential to a wide variety of research fields and technologies such as hydrogen storage for transportation, precise localization of hydrogen in electronic devices and the formation of cosmic H2. For coronene cations as prototypical Polycyclic Aromatic Hydrocarbon (PAH) molecules, the existence of magic numbers upon hydrogenation was uncovered experimentally. Quantum chemistry calculations show that hydrogenation follows a site-specific sequence leading to the appearance of cations having 5, 11, or 17 hydrogen atoms attached, exactly the magic numbers found in the experiments. For these closed-shell cations, further hydrogenation requires appreciable structural changes associated with a high transition barrier. Controlling specific hydrogenation pathways would provide the possibility to tune the location of hydrogen attachment and the stability of the system. The sequence to hydrogenate PAHs, leading to PAHs with magic numbers of H atoms attached, provides clues to understand that carbon in space is mostly aromatic and partially aliphatic in PAHs. PAH hydrogenation is fundamental to assess the contribution of PAHs to the formation of cosmic H2.

Original languageEnglish
Article number19835
Number of pages7
JournalScientific Reports
Volume6
DOIs
Publication statusPublished - 29-Jan-2016

Keywords

  • POLYCYCLIC AROMATIC-HYDROCARBONS
  • INFRARED-EMISSION FEATURES
  • SELECTIVE ELECTRON-CAPTURE
  • H-2 FORMATION
  • GRAPHITE SURFACE
  • ATOMIC-HYDROGEN
  • PAH CATIONS
  • H-ATOMS
  • CATALYTIC ROLE
  • CLUSTER-MODEL

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