respective polynuclear aromatic hydrocarbon counterparts. This phenomenon remains to be further investigated. Finally, the sensitive nature of chiral recognition by CDx's may be used to provide further insight into the binding or interaction of third components in CDx/heterocyclic systems. Warner, I. M. J. Phys. Chem. 1991, 95, 4897.
Phys. Chem. 1990, 94, 5020. 1981. (1) Schuette, J. M.; Ndou, T. T.; Mufioz de la Pefia, A.; Greene, K. L.; (2) Bergmark, W. R.; Davis, A.; York, C.; Macintosh, A.; Jones, G. 11. J. (3) Lin, S.-F. Ph.D. Dissertation, University of Wisconsin in Madison, (4) Matsui, Y.; Mochida, K. Bull. Chem. SOC. Jpn. 1979, 52, 2808. (5) Szejtli, J. Cyclodextrins and Their Inclusion Complexes; Akademiai (6) Schuette, J. M.; Ndou, T. T.; Warner, I. M. J. Am. Chem. SOC., in (7) Mufioz de la Pefia, A.; Ndou, T. T.; Zung, J. B.; Greene, K. L.; Live, (8) Zung, J. B.; Ndou, T. T.; Mufioz de la Pefia, A.; Warner, I. M. J. Phys. (9) Ishizuka, Y.; Nagawa, Y.; Nakanishi, H.; Akira, K. J. Inclusion (10) Kobayashi, N.; Opallo, M. J. Chem. SOC. Commun. 1990, 477. (11) Ata, M.; Kubozono, Y.; Suzuki, Y.; Aoyagi, M.; Gondo, Y. Bull. Kiado: Budapest, 1982. press. D. H.; Warner, I. M. J . Am. Chem. SOC. 1991, 113, 1572. Chem. 1991, 95, 6701.Charge-exchange ion-molecule reactions of Fe' with Fe(C0)5 formed by 20-70-eV electron impact of Fe(C0)5 are reported. The charge-exchange reaction chemistry data indicate that electronic states with energies up to about 4.0 eV are produced and that 40% of the excited-state ions are in the first excited state 4F(3d7) and the remaining 60% are in the 4D(4s13d6) to *G(4s'3d6) or higher energy states. Of the Fe+ produced by 50-70-eV ionizing energy 65% are formed as excited states and about 35% as ground state 6D(4s'3d6). The results from charge-exchange ion-molecule reactions are compared to the excited states determined by other methods.
