Theoretical study of X− H bond energetics (X= C, N, O, S): application to substituent effects, gas phase acidities, and redox potentials
GA DiLabio, DA Pratt, AD LoFaro… - The Journal of Physical …, 1999 - ACS Publications
The Journal of Physical Chemistry A, 1999•ACS Publications
Bond dissociation energies, electron affinities, and proton affinities are computed for a
variety of molecules containing C− H, N− H, O− H, and S− H bonds using density functional
theory with the B3LYP functional. Thermochemistry in which these bonds are broken or ions
are formed is particularly relevant to understanding proton transfer (acid− base), electron
transfer (redox), and H-atom transfer (free radical) reactions. A series of basis set
experiments has led to an optimum compromise between computational speed and …
variety of molecules containing C− H, N− H, O− H, and S− H bonds using density functional
theory with the B3LYP functional. Thermochemistry in which these bonds are broken or ions
are formed is particularly relevant to understanding proton transfer (acid− base), electron
transfer (redox), and H-atom transfer (free radical) reactions. A series of basis set
experiments has led to an optimum compromise between computational speed and …
Bond dissociation energies, electron affinities, and proton affinities are computed for a variety of molecules containing C−H, N−H, O−H, and S−H bonds using density functional theory with the B3LYP functional. Thermochemistry in which these bonds are broken or ions are formed is particularly relevant to understanding proton transfer (acid−base), electron transfer (redox), and H-atom transfer (free radical) reactions. A series of basis set experiments has led to an optimum compromise between computational speed and accuracy. Several theoretical models are defined and tested, and the medium and higher-level models approach an accuracy of 1 kcal/mol. Use of the above methodology to obtain absolute bond dissociation energies for X−H bonds, isodesmic reaction schemes, substituent effects, redox potentials, and gas-phase acid dissociation constants shows the usefulness of this approach.
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