2016
DOI: 10.1021/jacs.5b12434
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Distinguishing Bonds

Abstract: The energy change per electron in a chemical or physical transformation, ΔE/n, may be expressed as Δχ̅ + Δ(VNN + ω)/n, where Δχ̅ is the average electron binding energy, a generalized electronegativity, ΔVNN is the change in nuclear repulsions, and Δω is the change in multielectron interactions in the process considered. The last term can be obtained by the difference from experimental or theoretical estimates of the first terms. Previously obtained consequences of this energy partitioning are extended here to … Show more

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Cited by 56 publications
(132 citation statements)
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“…They could be viewed as having varying degrees of “dative” or “coordinate covalent” character. The gradation in interaction energies that is observed is in accord with the concept that chemical bonding is a continuum of forms, ranging from weak to strong …”
Section: Discussion and Summarysupporting
confidence: 75%
See 1 more Smart Citation
“…They could be viewed as having varying degrees of “dative” or “coordinate covalent” character. The gradation in interaction energies that is observed is in accord with the concept that chemical bonding is a continuum of forms, ranging from weak to strong …”
Section: Discussion and Summarysupporting
confidence: 75%
“…The gradation in interaction energies that is observed is in accord with the concept that chemical bonding is a continuum of forms, ranging from weak to strong. [32,103,[110][111][112][113] Finally, we want to point out that the value of the electrostatics/polarization relationships that have been discussed is primarily conceptual rather than predictive. They serve the very important purpose of providing strong support for the Coulombic description of σand π-hole interactions.…”
Section: Chemphyschemmentioning
confidence: 99%
“…One can generally sort chemical bonds from knowledge of the average orbital energy. 78 The average orbital energy is a measure that will, in principle, reflect all correlation effects, including those that are manifested in the kinetic energy.…”
Section: A Density Scaling In the Exact XC Energymentioning
confidence: 99%
“…In a very recent method, here referred to as the Q‐analysis, developed by Rahm and Hoffmann, energetic contributions to bonding are evaluated in a different way . According to this approach, the energy change per electron upon bonding, ΔEn , may be expressed as Δχ+ΔVNN+ω/n , where Δχ is the change in the average binding energy, Δ V NN is the change in the nuclear repulsion, and Δ ω is the change in multielectron interactions (such as the electron repulsion and exchange‐correlation energies) referring to a homolytic bond formation (A .…”
Section: Introductionmentioning
confidence: 99%