ISSN:
1089-7690
Source:
AIP Digital Archive
Topics:
Physics
,
Chemistry and Pharmacology
Notes:
Photoelectron spectroscopy was carried out for mass-selected anion clusters of pyridine (C5H5N=Py) up to (Py)13−. The smallest anion cluster observed was (Py)4−, which exhibited two distinctly different photoelectron bands arising from dipole-bound and valence electron states. A mixed cluster of [(Py)3(H2O)1]− displayed similar features. No dipole-bound state was observed in the larger clusters of neat pyridine, (Py)5–13−, which were interpreted as solvated clusters of pyridine molecular anion, Py−(Py)4–12. Threshold electron binding energies were measured as the upper limit value of adiabatic electron affinities. They increased monotonically from 0.33 eV for the cluster size of n=4 to 1.02 eV for n=13. But their incremental change showed a large drop at n=8, as did the incremental change in vertical detachment energy, which was viewed as due to the completion of the first solvation shell at n=7. The energetics of anion solvation suggested nearly pure electrostatic interactions at play. A boundary was drawn on the adiabatic electron affinity of the pyridine molecule between −0.67 and −0.15 eV. Under a very high laser fluence condition, multiphoton processes were found to occur that lead to photofragmentation followed by photodetachment. Photofragmentation of (Py)5,6− yielded photofragments which revealed the same features as the dipole-bound state of (Py)4−. This was taken as evidence for the existence of dipole-bound excited states of diffuse orbital character in these larger clusters. © 1999 American Institute of Physics.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1063/1.480269
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