Bonding situation and N-O-bond strengths in amine-N-oxides--a combined experimental and theoretical study |
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Authors: | Rogachev Andrey Yu Burger Peter |
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Affiliation: | Institut für Anorganische und Angewandte Chemie, Universit?t Hamburg, 20146 Hamburg, Germany. |
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Abstract: | The bonding situation and energetics of the N-O bond in a series of amine-N-oxides, Ph(x)(CH(3))(3-x)N-O, where x = 0-3, were analyzed experimentally and theoretically. There is a notable nearly linear decrease of the N-O bond dissociation energies (BDEs) for this series with an increasing number of phenyl groups x. This was investigated experimentally by X-ray high angle multipole refinement techniques in combination with subsequent topological analysis of the electron density for the representative (CH(3))(2)PhN-O, 2, and complementary theoretical calculations at the DFT and multireference CASSCF and MR-perturbation theory (MCQDPT2) levels. Both the theoretical and experimental results unambiguously revealed a polar covalent σ-bond for the N-O bond with an essentially identical bonding situation for all amine-N-oxides studied. This apparent disparity between the bonding situation and the trend of BDEs is attributed to the large differences of the relaxation energies of the corresponding amines Ph(x)(CH(3))(3-x)N, (x = 0-3), respectively, the required preparation energies (ΔE(prep)) for the reverse N-O bond forming process. The detailed theoretical analysis of the amines allowed us to trace the trend of larger values of ΔE(prep) for a higher number of phenyl groups x to an increase of n(N) → π*(C-C) delocalization interactions. |
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