Protonated ethanol and its neutral counterparts |
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| Authors: | Chrysostomos Wesdemiotis Aberra Fura Fred W. McLafferty |
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| Affiliation: | 1. Department of Chemistry, The University of Akron, 44325, Akron, OH, USA
2. Baker Chemistry Laboratory Department of Chemistry, Cornell University, Ithaca, New York, USA
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| Abstract: | Collisionally activated dissociation and neutralization-reionization experiments reveal that protonation of ethanol leads to two distinct isomers, the classical ion CH3CH2OH+2 and the proton-bound complex C2H4…H+…OH2. The neutral counterpart of the latter is unstable, whereas that of the former can be produced in a bound state if the CH3CH2OH+2 precursor ion is formed under low ion source pressure conditions and, thus, with higher internal energies. This suggests that there are substantial differences in the geometries of CH3CH2OH+2 and the hypervalent CH3CH2OH2 ·. This provides only a partial explanation for unusual isotope effects; C2H5OD2 ·, CH3CD2OD2 ·, and CD3CH2OD2 · are substantially more stable than C2D5OD2 · and C2H5OH2 ·. |
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