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Intramolecular O路路路H Hydrogen Bonding of Salicylic Acid: Further Insights from O 1s XPS and <sup>1</sup>H NMR Spectra Using DFT Calculations
Intramolecular hydrogen bonding (HB) is a complex phenomenon
that
extends beyond a simple valence event, affecting the core electrons
of a molecule. Salicylic acid (SA) and its conformers provide an excellent
model compound for studying intramolecular HB as the proton donor
(H) and acceptor (O) can be toggled by rotating the C鈥揙 and
C鈥揅 bonds to form up to seven potential conformers through
various HB. In this study, we computationally investigated intramolecular
interactions in SA conformers with and without such HB, by examining
their calculated O 1s core electron-binding energy (CEBE) and 1H NMR chemical shifts validated using recent measurements.
The quantum mechanically stable SA conformers are fully defined by
three rotatable bonds in the compound, which are abstracted as SA(畏1畏2畏3) digital structures,
where 畏i = 0 if the 畏i angles match
the most stable SA conformer (000) and 畏i = 1 otherwise. Our findings suggest that the stability is
dominated by the appearance of the intergroup intramolecular HB of
Hp路路路O (where O is in the carboxylic acid
functional group and Hp is the phenolic proton in 鈭扥Hp), and 畏3 serves as a switch of such HB.
As a result, the (畏1畏20) SA conformers
containing such Hp路路路O HB are more stable
than other SA conformers (畏1畏21)
without such the Hp路路路O HB. The present
density functional theory calculations reveal that this Hp路路路O HB results in splitting of the O 1s CEBEs of
two hydroxyl groups (鈭扥H) by up to 1 eV and deshielding the
Hp proton 1H NMR (未Hp) up to
11.68 ppm for the (畏1畏20) conformers.
Without such Hp路路路O HB, the O 1s XPS binding
energies of two 鈭扥H groups will be closely located in the same
band, and the 1H NMR chemical shift of the Hp atom will be as small as an 4.09 ppm SA conformer [SA-G(101)]. The
present study indicates that the O 1s CEBE splitting between two 鈭扥H
groups serves as an indicator of the presence of the Hp路路路O HB in SA conformers, which is also supported
by the 1H NMR results