Site-Selective
Dissociation Processes of Cationic
Ethanol Conformers: The Role of Hyperconjugation
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Abstract
In
present report, we explored hyperconjugation effects on the
site- and bond-selective dissociation processes of cationic ethanol
conformers by the use of theoretical methods (including configuration
optimizations, natural bond orbital (NBO) analysis, and density of
states (DOS) calculations, etc.) and the tunable synchrotron vacuum
ultraviolet (SVUV) photoionization mass spectrometry. The dissociative
mechanism of ethanol cations, in which hyperconjugative interactions
and charge-transfer processes were involved, was proposed. The results
reveal C<sub>α</sub>–H and C–C bonds are selectively
weakened, which arise as a result of the hyperconjugative interactions
σ<sub>Cα‑H</sub> → p in the trans-conformer
and σ<sub>C–C</sub> → p in gauche-conformer after
being ionized. As a result, the selective bond cleavages would occur
and different fragments were observed