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- Kwon, Oh Hoon
- Ultrafast Laser Spectroscopy and Nano-microscopy Lab.
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Alcohol Dimer is Requisite to Form an Alkyl Oxonium Ion in the Proton Transfer of a Strong (Photo)Acid to Alcohol
- Author(s)
- Park, Sun-Young, Lee, Young Min, Kwak, Kijeong, Jung, Yousung, Kwon, Oh-Hoon
- Issued Date
- 2016-03
- Citation
- CHEMISTRY-A EUROPEAN JOURNAL, v.22, no.13, pp.4340 - 4344
- Abstract
- Alcohols, the simplest amphiprotic organic compounds, can exhibit either acidic or basic behavior by donating or accepting a proton. In this study, proton dissociation of a model photoacid in solution is explored by using time-resolved spectroscopy, revealing quantitatively for the first time that alcohol acts as a BrOnsted base because of H-bonded cluster formation to enhance the reactivity. The protonated alcohol cluster, the alkyl oxonium ion, can be regarded as a key reaction intermediate in the well-established alcohol dehydration reaction. This finding signifies, as in water, the cooperativity of protic solvent molecules to facilitate nonaqueous acid-base reactions.
- Publisher
- WILEY-V C H VERLAG GMBH
- ISSN
- 0947-6539
- Keyword (Author)
- alcohols, dehydration, hydrogen bonds, proton transport, time-resolved spectroscopy
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