Recognition of anions using urea and thiourea substituted calixarenes: A density functional theory study of non-covalent interactions

Athar M.

First

Conceptualization

;Lone M. Y.;Jha P. C.

2018-01-01

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Abstract

Designing of new calixarene receptors for the selective binding of anions is an age-old concept; even though expected outcomes from this field are at premature stage. Herein, we have performed quantum chemical calculations to provide structural basis of anion binding with urea and thiourea substituted calixarenes (1, 2, and 3). In particular, spherical halides (F−, Cl−, Br−) and linear anions (CN−, N3−, SCN−) were modelled for calculating binding energies with receptor 1, 2 and 3 followed by their marked IR vibrations; taking the available experimental information into account. We found that the thiourea substitutions have better capability to stabilize the anions. Results have suggested that the structural behaviour of macrocyclic motifs were responsible for displaying the anion binding potentials. Moreover, second order “charge transfer” interactions of n‐σ∗NH and n‐σ∗OH type along the H‐bond axis played critical role in developing hydrogen bonds. The present work also examines the role of non-covalent interactions (NCI) and their effects on thermodynamic and chemical-reactivity descriptors.