Open AccessAccurate O−H Bond Dissociation Energy Differences of Hydroxylamines Determined by EPR Spectroscopy: Computational Insight into Stereoelectronic Effects on BDEs and EPR Spectral Parameters
Author(s) -
Paul S. Billone,
Paul A. Johnson,
Shuqiong Lin,
J. C. Scaiano,
Gino A. DiLabio,
K. U. Ingold
Publication year - 2010
Publication title -
the journal of organic chemistry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.2
H-Index - 228
eISSN - 1520-6904
pISSN - 0022-3263
DOI - 10.1021/jo1021794
Subject(s) - chemistry , electron paramagnetic resonance , bond dissociation energy , dissociation (chemistry) , computational chemistry , spectroscopy , bond energy , photochemistry , molecule , nuclear magnetic resonance , organic chemistry , physics , quantum mechanics
Differences in O-H bond dissociation enthalpies (ΔBDEs) between the hydroxylamine of (15)N-labeled TEMPONE and 10 N,N-di-tert-alkyl hydroxylamines were determined by EPR. These ΔBDEs, together with the g and a(N) values of the derived nitroxide radicals, are discussed in relation to various geometric, intramolecular dipole/dipole, and steric effects and in relation to the results from DFT calculations. We find that dipole/dipole interactions are the dominant factors in dictating a(N) values and O-H BDEs in all of these structurally similar nitroxides and hydroxylamines, respectively. The importance of including the Boltzmann distribution of conformations for each nitroxide in the a(N) calculations is emphasized.
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