Covalence and π-electron delocalization influence on hydrogen bonds in proton transfer process of o -hydroxy aryl Schiff bases: A combined NMR and QTAIM analysis

ZARYCZ, M. NATALIA C.; SCHIEL, M. AYELÉN; ANGELINA, EMILIO; ENRIZ, RICARDO D.

JOURNAL OF CHEMICAL PHYSICS

AMER INST PHYSICS

Año: 2021 vol. 155

0021-9606

Within the framework of the density functional theory approach, we studied the relationship between the chemical nature of intramolecular hydrogen bonds (HBs) and nuclear magnetic resonance (NMR) parameters, J-couplings and 1 H-chemical shifts [δ( 1 H)], of the atoms involved in such bonds in o-hydroxyaryl Schiff bases during the proton transfer process. For the first time, the shape of the dependence of the degree of covalence in HBs on 1 J(N?H), 1 J(O?H), 2h J(O?N), and δ( 1 H) during the proton transfer process in o-hydroxyaryl Schiff bases was analyzed. Parameters obtained from Bader?s theory of atoms in molecules were used to assess the dependence of covalent character in HBs with both the NMR properties. The influence of π-electronic delocalization on 2h J(N?O) under the proton transfer process was investigated. 2h J(O?N) in a Mannich base was also studied in order to compare the results with an unsaturated system. In addition, substituent effects on the phenolic ring were investigated. Our results indicate that the covalent character of HBs on both sides of the transition state undergoes a smooth exponential increase as the δ( 1 H) moves downfield. The degree of covalence of the N⋅ ⋅ ⋅H (O⋅ ⋅ ⋅H) bond increases linearly as 1 J(N?H) ( 1 J(O?H)) becomes more negative, even after reaching the transition state. Non-vanishing values of spin dipolar (SD) and paramagnetic spin orbital terms of 2h J(O?N) show that π-electronic delocalization has a non-negligible effect on tautomeric equilibrium and gives evidence of the presence of the resonance assisted HB.Variation of the SD term of 2h J(O?N) follows a similar pattern as the change in the para-delocalization aromaticity index of the chelate ring.