AI Article Synopsis
- * Time-of-flight mass spectra were recorded across a range of collision energies (17.5 to 350 eV), revealing that the branching ratios of different products depend significantly on the collision energy, especially at low to intermediate energies.
- * The study highlights the role of the electron donor in reactions involving temporary negative ions, as evidenced by electronic state spectroscopy showing a significant Feshbach resonance, and is supported by quantum chemical calculations of molecular orbitals with potassium.
Article Abstract
Dissociative electron transfer in collisions between neutral potassium atoms and neutral ethanol molecules yields mainly OH, followed by CHO, O, CH and CH . The dynamics of negative ions have been investigated by recording time-of-flight mass spectra in a wide range of collision energies from 17.5 to 350 eV in the lab frame, where the branching ratios show a relevant energy dependence for low/intermediate collision energies. The dominant fragmentation channel in the whole energy range investigated has been assigned to the hydroxyl anion in contrast to oxygen anion from dissociative electron attachment (DEA) experiments. This result shows the relevant role of the electron donor in the vicinity of the temporary negative ion formed allowing access to reactions which are not thermodynamically attained in DEA experiments. The electronic state spectroscopy of such negative ions, was obtained from potassium cation energy loss spectra in the forward scattering direction at 205 eV impact energy, showing a prevalent Feshbach resonance at 9.36±0.10 eV with character, while a less pronounced contribution assigned to a shape resonance has been obtained at 3.16±0.10 eV. Quantum chemical calculations for the lowest-lying unoccupied molecular orbitals in the presence of a potassium atom have been performed to support the experimental findings.
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| http://dx.doi.org/10.1002/cphc.202400314 | DOI Listing |
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