Journal
PHYSICAL CHEMISTRY CHEMICAL PHYSICS
Volume 7, Issue 5, Pages 892-899Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/b415766d
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Photoelectron imaging and time of flight mass spectrometry are used to study the multiphoton ionization and dissociation of pyrrole and its cation following excitation at 243 nm and at 364.7 nm. Our results confirm the 8.2 eV ionization potential of pyrrole and the 9.2 eV ionization threshold for forming the B-2(1) first excited state of the cation. Prompt photolysis of the N - H bond in neutral pyrrole following one-photon excitation to its 1 (1)A(2) neutral excited state is inferred from analysis of the two-photon photoelectron spectrum recorded at 243 nm, confirming the findings of recent translational spectroscopy studies. Facile dissociation of the pyrrole cation is also observed following excitation at 243 nm; analysis of the fragment cations indicates the operation of a complex dissociation mechanism involving dual bond fission and possible migration of the H atom originally bonded to the nitrogen heteroatom.
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