Definition of the Pnictogen Bond: A Perspective

This article proposes a definition for the term pnictogen bond and lists its donors, acceptors, and characteristic features. These may be invoked to identify this specific subset of the inter- and intra-molecular interactions formed by elements of Group 15 which possess an electrophilic site in a molecular entity.Comment: 15 page

Tetrel Bonding in Anion Recognition: A First-Principles Investigation

Twenty-five molecule-anion complex systems [I4Tt...X-] (Tt = C, Si, Ge, Sn and Pb; X = F, Cl, Br, I, At) were examined using density functional theory (wB97XD) and ab initio (MP2 and CCSD) methods to demonstrate the ability of the tetrel atoms in molecular entities, I4Tt, to recognize the halide anions when in close proximity. The tetrel bond strength for the [I4C...X-] series, and [I4Tt...X-] (Tt = Si, Sn; X = I, At), was weak-to-moderate, whereas that in the remaining 16 complexes was dative tetrel bond type with very large interaction energies and short Tt...X close contact distances. The basis set superposition error corrected interaction energies calculated with the highest-level theory applied, [CCSD(T)/def2-TZVPPD], ranged from -3.0 to -112.2 kcal mol-1. The significant variation in interaction energies was realized as a result of different levels of tetrel bonding environment between the interacting partners at the equilibrium geometries of the complex systems. Although the wB97XD computed intermolecular geometries and interaction energies of [I4Tt...X-] were close to those predicted by the highest level of theory, the MP2 results were shown to be misleading for some of the molecule-anion complex systems investigated. To provide insight into the nature of the intermolecular chemical bonding environment in the 25 molecule-anion complexes investigated, we discussed the charge density based topological and isosurface features that emanated from the application of quantum theory of atoms in molecules and independent gradient model approaches, respectively

Studies on 8-tertbutyl Caffeine: An in silico approach to mechanistic studies

Amminecobalt (III) promoted aerial oxidation of alkyl hydrazines undergoing homolytic alkylation of xanthines selectively at C-8 position. No modeling studies have been done previously on these compounds. An attempt was made to predict the mechanism involved in this spontaneous reaction using molecular modeling. The predictions revealed that homolytic aromatic substitution of alkyl radical exhibits primary isotopic effect. We try to correlate the importance of in silico approaches towards mechanistic studies in such compounds