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Low-energy electron-induced dissociation in gas-phase nicotine, pyridine, and methyl-pyrrolidine.

The Journal of chemical physics (2017-09-10)
Michal Ryszka, Elahe Alizadeh, Zhou Li, Sylwia Ptasińska
ABSTRAKT

Dissociative electron attachment to nicotine, pyridine, and N-methyl-pyrrolidine was studied in the gas phase in order to assess their stability with respect to low-energy electron interactions. Anion yield curves for different products at electron energies ranging from zero to 15 eV were measured, and the molecular fragmentation pathways were proposed. Nicotine does not form a stable parent anion or a dehydrogenated anion, contrary to other biological systems. However, we have observed complex dissociation pathways involving fragmentation at the pyrrolidine side accompanied by isomerization mechanisms. Combining structure optimization and enthalpy calculations, performed with the Gaussian09 package, with the comparison with a deuterium-labeled N-methyl-d3-pyrrolidine allowed for the determination of the fragmentation pathways. In contrast to nicotine and N-methylpyrrolidine, the dominant pathway in dissociative electron attachment to pyridine is the loss of hydrogen, leading to the formation of an [M-H]

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Sigma-Aldrich
N-Methyl-d3-pyrrolidine, 98 atom % D