Trianglimine‐Mediated Selective Sieving of Cis Isomer from the Mixture of Dihaloethenes: A Combined Molecular Dynamics and DFT Investigation

Abstract

AbstractThe manufacture of alkenyl halides on a larger scale often results in the formation of a mixture of isomers, each having individual significant applications while their separation from each other is a strenuous task. Since most of the conventional distillation techniques are known to be intricate, energy consuming and expensive, the quest for an alternative separation strategies is still continuing. In this context, the recently reported trianglimine macrocycle ‐ a new class of intrinsically porous material, is promising in discerning cis isomer from a mixture of cis and trans dichloroethene. Herein, an attempt has been made to apprehend the host‐guest inclusion phenomenon accountable for the selectivity of cis over the trans isomers of 1,2‐dihaloethene (F, Cl and Br) using molecular dynamics simulation and density functional calculations at ω‐B97xd/6‐311G+(d,p) level of theory. The average binding energy of selected snapshots has been calculated at different loadings, temperatures and pressures from molecular dynamics simulation. Our results show that trianglimine can stabilise the cis isomers of the dihaloethenes inside its cavity forming complexes with high interaction energies and the rationale behind the recyclability of the host molecule has been clarified. The outcomes of the calculations bring out the potential utility of this new host architecture to produce highly pure value added chemicals in industries.