1995
DOI: 10.1255/ejms.158
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Time-dependent mass spectra and breakdown graphs. 18. pyrene

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Cited by 40 publications
(66 citation statements)
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“…), the activation energies for the H 2 -loss from a duo and a solo position are of 3.89 and 2.2 eV, respectively. Assuming a change in entropy of −53.1 J/K/mol (Ling et al 1995), we get that superhydrogenated molecules will preferably lose their extra H atom after UV photon absorption, rather than an H 2 molecule, and that superhydrogenated isomers with free C atoms are not relevant species. Thus, we do not consider direct H 2 -loss from superhydrogenated molecules.…”
Section: Photodissociation Channelsmentioning
confidence: 96%
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“…), the activation energies for the H 2 -loss from a duo and a solo position are of 3.89 and 2.2 eV, respectively. Assuming a change in entropy of −53.1 J/K/mol (Ling et al 1995), we get that superhydrogenated molecules will preferably lose their extra H atom after UV photon absorption, rather than an H 2 molecule, and that superhydrogenated isomers with free C atoms are not relevant species. Thus, we do not consider direct H 2 -loss from superhydrogenated molecules.…”
Section: Photodissociation Channelsmentioning
confidence: 96%
“…For coronene and its dehydrogenated states (N H ≤ 12), we will use the activation energies and entropies derived for pyrene cation from the time-dependent mass spectrometry experiments of Ling et al (1995); that is, activation energies of 4.6 and 4.1 eV, and entropies of 44.8 and 55.6 J/K/mol, for PAHs with an even and odd number of H atoms, respectively (see Table 2). …”
Section: Photodissociation Channelsmentioning
confidence: 99%
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