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Understanding the aqueous chemistry of quinoline and the diazanaphthalenes: insight from DFT study

Obieze C. Enudi, Hitler Louis, Moses M. Edim, John A. Agwupuye, Francis O. Ekpen, Emmanuel A. Bisong, Patrick M. Utsu

2021Heliyon19 citationsDOIOpen Access PDF

Abstract

The inter-fragment interactions at various binding sites and the overall cluster stability of quinolone (QNOL), cinnoline (CNOL), quinazoline (QNAZ), and quinoxaline (QNOX) complexes with H 2 O were studied using the density functional theory (DFT) approach. The adsorption and H-bond binding energies, and the energy decomposition mechanism was considered to determine the relative stabilization status of the studied clusters. Scanning tunneling microscopy (STM), natural bonding orbitals (NBO) and charge decomposition were studied to expose the electronic distribution and interaction between fragments. The feasibility of formations of the various complexes were also studied by considering their thermodynamic properties. Results from adsorption studies confirmed the actual adsorption of H 2 O molecules on the various binding sites studied, with QNOX clusters exhibiting the best adsorptions. Charge decomposition analysis (CDA) revealed significant charge transfer from substrate to H 2 O fragment in most complexes, except in QNOL, CNOL and QNAZ clusters with H 2 O at binding position 4, where much charges are back-donated to substrate. The O---H inter-fragment bonds was discovered to be stronger than counterpart N---H bonds in the complexes, whilst polarity indices confirmed N---H as more polar covalent than O---H bonds. Thermodynamic considerations revealed that the formation process of all studied complexes are endothermic (+ve Δ H f ) and non-spontaneous (+ve Δ G f ).

Topics & Concepts

Natural bond orbitalChemistryDensity functional theoryBinding energyComputational chemistryCrystallographyMoleculeAdsorptionEndothermic processPhysical chemistryOrganic chemistryNuclear physicsPhysicsSynthesis and Biological EvaluationQuinazolinone synthesis and applicationsPhenothiazines and Benzothiazines Synthesis and Activities
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