A quantum theory atoms in molecules investigation of Lewis base protonation |
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| Authors: | Natieli Alves da Silva Luiz Alberto Terrabuio Roberto Luiz Andrade Haiduke |
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| Affiliation: | Departamento de Química e Física Molecular, Instituto de Química de S?o Carlos, Universidade de S?o Paulo, S?o Carlos, S?o Paulo, Brazil |
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| Abstract: | This investigation uses atomic properties derived from the quantum theory of atoms in molecules formalism to rationalize the infrared intensity of the stretching vibration that arises as a Lewis base (B) is protonated (B‐H mode). Moreover, the interacting quantum atom (IQA) partition is employed to evaluate the energetics of protonation. All calculations are performed at the CCSD/cc‐pVQZ level except by the IQA analysis, which is carried out by means of the B3LYP/cc‐pVQZ//CCSD/cc‐pVQZ treatment. First, an efficiency scale is established for Lewis bases in terms of the electronic charge transfer potential. Next, this study shows that the intensity of the B‐H stretching depends mostly on the electronic charge amount transferred to the proton. Thus, intensity data provide empirical assessment of Lewis base charge transfer efficiency. Finally, the group separation observed during correlation of proton affinities and electronic charge transfer potential is explained by the interaction energy between fragments of the protonated system. |
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| Keywords: | Lewis base protonation infrared intensities charge– charge flux‐dipole flux model |
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