DOI

In this work the possibility of using the IR intensity of the stretching vibration νs of proton donor group for estimation of hydrogen bond strength was investigated. For a set of complexes with FH···X (X = F, N, O) hydrogen bonds in the wide range of energies (0.1–49.2 kcal/mol) vibrational frequencies νs and their intensities A were calculated (CCSD at complete basis set limit). The validity of the previously proposed linear proportionality between the intensification of the stretching vibration νs in IR spectra and hydrogen bond enthalpy –ΔH = 12.2 urn:x-wiley:01928651:media:jcc26482:jcc26482-math-0001 (A. V. Iogansen, Spectrochimica Acta A 1999) was examined. It is shown that for a range of similar hydrogen bond types with complexation energies ∆E <15 kcal/mol the ∆E(urn:x-wiley:01928651:media:jcc26482:jcc26482-math-0002) function remains similar to that proposed in the Iogansen's work, while upon strengthening this dependency becomes significantly nonlinear. We examined two other parameters (urn:x-wiley:01928651:media:jcc26482:jcc26482-math-0003 and urn:x-wiley:01928651:media:jcc26482:jcc26482-math-0004) related to IR intensity as descriptors of hydrogen bond strength which are proportional to transition dipole moment matrix element and mass‐independent dipole moment derivative. It was found that the dependency ∆E(urn:x-wiley:01928651:media:jcc26482:jcc26482-math-0005) stays linear in the whole studied range of complexation energies and it can be used for evaluation of ∆E from infrared spectral data with the accuracy about 2 kcal/mol. The mass‐independent product urn:x-wiley:01928651:media:jcc26482:jcc26482-math-0006 is an appropriate descriptor for sets of complexes with various hydrogen bond types. Simple equations proposed in this work can be used for estimations of hydrogen bond strength in various systems, where experimental thermodynamic methods or direct calculations are difficult or even impossible.
Язык оригиналаанглийский
Страницы (с-по)572-580
Число страниц9
ЖурналJournal of Computational Chemistry
Том42
Номер выпуска8
DOI
СостояниеОпубликовано - 30 мар 2021

    Предметные области Scopus

  • Вычислительная математика
  • Химия (все)

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