Synergistic effect of intra- and intermolecular hydrogen bond in 2-haloethanols probed by infrared

[Display omitted] •2-Fluoroethanol does not experience intramolecular hydrogen bond.•Intramolecular hydrogen bond determines the conformational equilibrium of 2-iodoethanol.•Intramolecular hydrogen bond persists in 2-iodoethanol even in solution or as neat liquid. Fluorine is often considered the on...

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Published in:Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy Molecular and biomolecular spectroscopy, 2023-03, Vol.288, p.122205, Article 122205
Main Authors: Martins, Francisco A., Ramalho, Teodorico C., Freitas, Matheus P.
Format: Article
Language:English
Subjects:
Conformation
Haloethanols
Hydrogen bond
Infrared
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Summary:[Display omitted] •2-Fluoroethanol does not experience intramolecular hydrogen bond.•Intramolecular hydrogen bond determines the conformational equilibrium of 2-iodoethanol.•Intramolecular hydrogen bond persists in 2-iodoethanol even in solution or as neat liquid. Fluorine is often considered the only halogen to effectively engage in hydrogen bonds, while the other halogens, particularly iodine, are not electronegative enough to participate as hydrogen bond acceptors in electrostatic interactions. 2-Fluoroethanol and 2-iodoethanol have been studied herein to test this assumption, since a highly stable gauche conformation can experience the intramolecular hydrogen bond. However, the infrared O  H stretching frequency indicates that the hydroxyl group in 2-fluoroethanol is not engaged in intramolecular hydrogen bond, while the corresponding vibration mode for 2-iodoethanol suggests that not only the O  H is engaged in such interaction, but also that intramolecular hydrogen bond may drive the conformational equilibrium in this molecule. Theoretical calculations support the covalent nature of this interaction, and provide evidence that intermolecular hydrogen bond with a water molecule, and probably with the polar solvents tested experimentally, occurs with the hydroxyl rather than with the iodine substituent, as conventionally, in order to keep the intramolecular hydrogen bond effective.
ISSN:1386-1425
DOI:10.1016/j.saa.2022.122205