London Dispersion-Assisted Low-Temperature Gas Phase Synthesis of Hydrogen Bond-Inserted Complexes
Supersonic expansions of organic molecules in helium carrier gas mixtures are used to synthesize model (pre) reactive complexes at low temperature. Whether or not barriers for hydrogen bond rearrangements can be overcome in this collisional process is not well understood. Using the example of alcohols inserting into intramolecular hydrogen bonds of α-hydroxy esters, we explore whether dispersion energy donors can assist the process in a systematic way. Bromo, iodo, and tert-butyl substitution of benzyl alcohol in the para-position is used to show that the insertion process into methyl glycolate is controllable, whereas it is largely avoided for the chiral methyl lactate homologue. Methyl lactate appears to steer the transient chirality of benzyl alcohol derivatives in a uniform direction relative to the lactate handedness for the OH∙∙∙O=C insertion product, as well as for the competing attachment to the hydroxy group of the ester. A simple rule based on the total binding energy in relation to the rearrangement barrier is tentatively proposed to estimate whether the insertion is feasible or not in such molecular complexes during expansion.
- Location
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Deutsche Nationalbibliothek Frankfurt am Main
- Extent
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Online-Ressource
- Language
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Englisch
- Bibliographic citation
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London Dispersion-Assisted Low-Temperature Gas Phase Synthesis of Hydrogen Bond-Inserted Complexes ; volume:33 ; number:20 ; year:2022 ; pages:2004-2008
Synlett ; 33, Heft 20 (2022), 2004-2008
- Contributor
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Lange, Manuel
Sennert, Elisabeth
Suhm, Martin A.
- DOI
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10.1055/s-0042-1751385
- URN
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urn:nbn:de:101:1-2023011912434169294983
- Rights
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Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
- Last update
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15.08.2025, 7:39 AM CEST
Data provider
Deutsche Nationalbibliothek. If you have any questions about the object, please contact the data provider.
Associated
- Lange, Manuel
- Sennert, Elisabeth
- Suhm, Martin A.
Other Objects (12)
Erratum: London Dispersion-Assisted Low-Temperature Gas Phase Synthesis of Hydrogen Bond-Inserted Complexes
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Nature of Alkali‐ and Coinage‐Metal Bonds versus Hydrogen Bonds
Unusual hydrogen bonds in RNA and proteins
Hydrogen-bond pattern to characterize water network
Dynamic anti-correlations of water hydrogen bonds
A nurse-inserted peripherally inserted central catheter program in general pediatrics: a single-center experience
The Hydrogen Bond, the Halogen Bond and Rotational Spectroscopy: A Personal Retrospective
Erratum: London Dispersion-Assisted Low-Temperature Gas Phase Synthesis of Hydrogen Bond-Inserted Complexes
Hydrogen bonds
Hydrogen bonds
Collision processes in low-temperature hydrogen plasma
Carbon-Hydrogen bond activation
The hydrogen bond : a bond for life
Nature of Alkali‐ and Coinage‐Metal Bonds versus Hydrogen Bonds
Unusual hydrogen bonds in RNA and proteins
Hydrogen-bond pattern to characterize water network
Dynamic anti-correlations of water hydrogen bonds
A nurse-inserted peripherally inserted central catheter program in general pediatrics: a single-center experience
The Hydrogen Bond, the Halogen Bond and Rotational Spectroscopy: A Personal Retrospective
Erratum: London Dispersion-Assisted Low-Temperature Gas Phase Synthesis of Hydrogen Bond-Inserted Complexes
Hydrogen bonds
Hydrogen bonds
Collision processes in low-temperature hydrogen plasma
Carbon-Hydrogen bond activation
The hydrogen bond : a bond for life
Nature of Alkali‐ and Coinage‐Metal Bonds versus Hydrogen Bonds
Unusual hydrogen bonds in RNA and proteins
Hydrogen-bond pattern to characterize water network
Dynamic anti-correlations of water hydrogen bonds
A nurse-inserted peripherally inserted central catheter program in general pediatrics: a single-center experience