Poonam Rawat, R. N. Singh
Mar 15, 2015
Citations
0
Influential Citations
17
Citations
Journal
Journal of Molecular Structure
Abstract
Abstract Two new 4-formyl pyrrole derived aroylhydrazones ( 3a , b) from ethyl 4-formyl-3,5-dimetyl-1 H -pyrrole-2-carboxylate and aroylhydrazides (3,5-dinitrobenzohydrazide/2-hydrazinocarbonyl- N -phenyl-acetamide) have been synthesized and characterized by various spectroscopic techniques 1 H NMR, Mass, UV–Visible and FT-IR. The calculated thermodynamic parameters show that the formation of 3a as spontaneous, whereas 3b as non-spontaneous. TD-DFT has been used to calculate the absorption wavelengths, oscillator strength ( f ) and the nature of electronic excitations. Natural bond orbital (NBO) analysis has been carried out to explore the various conjugative and hyperconjugative interactions and their second order stabilization energy ( E (2) ) within monomer and its dimer. The dimer formation of 3a , 3b due to result of intermolecular hydrogen bonding N1 H30⋯O84, N1 H28⋯O60 is obvious in 1 H NMR, NBO and FT-IR as down field chemical shifts, n (O84) → σ ∗ (N1 H30), n (O60) → σ ∗ (N1 H28) interactions, vibrational red shifts, respectively. To determine the strength and nature of hydrogen bonding, topological parameters at bond critical points (BCP) have been analyzed by ‘Quantum theory of Atoms in molecules’ (QTAIM) in detail. The global electrophilicity index ( ω ) has been calculated to determine the relative electrophilic strength of molecules. The local reactivity descriptors analyses such as Fukui functions ( f k + , f k − ), local softnesses ( s k + , s k − ) and electrophilicity indices ( ω k + , ω k − ) have been performed to determine the reactive sites within molecules. The first hyperpolarizabilities ( β 0 ) of 3a , b have been computed to evaluate the non-linear optical (NLO) response of the investigated molecules.