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Hydrogen-adduction to open-shell graphene fragments: spectroscopy, thermochemistry and astrochemistry
Version 2 2024-06-05, 06:07Version 2 2024-06-05, 06:07
Version 1 2019-11-06, 09:48Version 1 2019-11-06, 09:48
journal contribution
posted on 2024-06-05, 06:07 authored by Gerard O'ConnorGerard O'Connor, B Chan, JA Sanelli, KM Cergol, V Dryza, RJ Payne, EJ Bieske, L Radom, TW Schmidt© The Royal Society of Chemistry. We apply a combination of state-of-the-art experimental and quantum-chemical methods to elucidate the electronic and chemical energetics of hydrogen adduction to a model open-shell graphene fragment. The lowest-energy adduct, 1H-phenalene, is determined to have a bond dissociation energy of 258.1 kJ mol−1, while other isomers exhibit reduced or in some cases negative bond dissociation energies, the metastable species being bound by the emergence of a conical intersection along the high-symmetry dissociation coordinate. The gas-phase excitation spectrum of 1H-phenalene and its radical cation are recorded using laser spectroscopy coupled to mass-spectrometry. Several electronically excited states of both species are observed, allowing the determination of the excited-state bond dissociation energy. The ionization energy of 1H-phenalene is determined to be 7.449(17) eV, consistent with high-level W1X-2 calculations.
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Chemical ScienceVolume
8Pagination
1186-1194Location
London, Eng.Publisher DOI
Open access
- Yes
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2041-6520eISSN
2041-6539Language
engPublication classification
C1 Refereed article in a scholarly journalPublisher
Royal Society of ChemistryUsage metrics
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