Diego de O. Rogério scite author profile

The dissociative photoionization dynamics of the chloroacetone molecule (C3H5OCl) in the gas phase, induced by vacuum ultraviolet (VUV) synchrotron radiation in the range from 10.85 to 21.50 eV, has been investigated by using time-of-flight mass spectrometry in the photoelectron-photoion coincidence mode. The appearance energies for the most relevant cation fragments produced in this energy range have been analyzed, and the fragmentation pathways leading to the formation of the cation species have been proposed and discussed. The mass spectra show that the most dominant VUV photodissociation cation product appears at m/z 43 and has been assigned to the C2H3O+ species. Enthalpies of formation (Δf H°0K) for the neutral chloroacetone molecule and its molecular cation have been derived and correspond to −207.8 ± 5.8 kJ/mol and 755.1 ± 6.8 kJ/mol, respectively. In addition to the spectral analysis, the structural and energetic parameters for the cations produced have also been examined on the basis of high-level quantum chemical numerical calculations.

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Author response for "Investigation on the molecular structure and VUV induced ion dissociation dynamics of the 2‐azetidinone (C <sub>3</sub> H <sub>5</sub> NO)"

Lago¹,

Rogério²,

Farias³

et al. 2020

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Diego de O. Rogério

Investigation of the neutral and cation chloroacetone molecular structures and spectroscopic properties by ab initio and density functional theory methods

VUV-Induced Photodissociation of the Chloroacetone Molecule Studied by Photoelectron-Photoion Coincidence Spectroscopy

Author response for "Investigation on the molecular structure and VUV induced ion dissociation dynamics of the 2‐azetidinone (C <sub>3</sub> H <sub>5</sub> NO)"

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