We investigated the reaction dynamics of N-methylpyrrole (NMP) along the N-CH3 coordinate, upon excitation energies below 6.4 eV. Ours and previous experiments show clearly the existence of different reaction channels leading to slow and fast fragment production whose relative efficiency fluctuates with the changes in the excitation energy. Thanks to our modeling based on the differences of the NMP molecular orbitals (MOs) with respect to those of pyrrole we are able to show the existence of two low lying dissociative πσ*N-CH3 states. Those states originate from the degeneracy removal in the π MOs owing to their interaction with the σCH MO of the methyl group. This evidence and the calculated potential energy surfaces for dissociation along the N-CH3 coordinate provide the correct framework for the interpretation of the details in the NMP photodissociation dynamics.
New Insights on the Photodissociation of N-Methylpyrrole: The Role of Stereoelectronic Effects / Piani G.; Rubio-Lago L.; Collier M.A.; Kitsopoulos T.N.; Becucci M.. - In: JOURNAL OF PHYSICAL CHEMISTRY. A, MOLECULES, SPECTROSCOPY, KINETICS, ENVIRONMENT, & GENERAL THEORY. - ISSN 1089-5639. - STAMPA. - 113:(2009), pp. 14554-14558. [10.1021/jp903992u]
New Insights on the Photodissociation of N-Methylpyrrole: The Role of Stereoelectronic Effects
PIANI, GIOVANNI;BECUCCI, MAURIZIO
2009
Abstract
We investigated the reaction dynamics of N-methylpyrrole (NMP) along the N-CH3 coordinate, upon excitation energies below 6.4 eV. Ours and previous experiments show clearly the existence of different reaction channels leading to slow and fast fragment production whose relative efficiency fluctuates with the changes in the excitation energy. Thanks to our modeling based on the differences of the NMP molecular orbitals (MOs) with respect to those of pyrrole we are able to show the existence of two low lying dissociative πσ*N-CH3 states. Those states originate from the degeneracy removal in the π MOs owing to their interaction with the σCH MO of the methyl group. This evidence and the calculated potential energy surfaces for dissociation along the N-CH3 coordinate provide the correct framework for the interpretation of the details in the NMP photodissociation dynamics.
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