Two‐Way Catalysis in a Diels–Alder Reaction Limits Inhibition Induced by an External Electric Field

Author:

Gopakumar Karthik1ORCID,Shaik Sason2ORCID,Ramanan Rajeev1ORCID

Affiliation:

1. Department of Chemistry National Institute of Technology, Rourkela Rourkela Odisha 769008 India

2. Institute of Chemistry The Hebrew University of Jerusalem 9190407 Jerusalem Israel

Abstract

AbstractOriented external electric fields (EEFs) act as catalysts that can induce selectivity in chemical reactions. The responses of the Diels–Alder (DA) reaction between butadiene and ethylene (BDE‐DA) as well as cyclopentadiene and ethylene (CPDE‐DA) towards EEF stimuli are investigated here using density functional theory (B3LYP) calculations. EEF is a vector that catalyzes the reaction in one direction while inhibiting it in the opposite direction. Here we report that the inhibitive direction becomes rate‐enhancing after some increase in the EEF. The EEF value that brings about the maximum possible inhibition for the reaction is defined as the electrostatic resistance point (ERP). The possibility of both normal and inverse electron‐demand DA reactions causes catalytic activity in both directions of the EEF starting at a unique ERP value. The C5 substituents of cyclopentadiene control the ERP values depending upon the resistance power that the functional group provides against the EEF. The endo and exo diastereomeric transition states of the DA reaction have distinct ERP values and the difference (ΔERP) provides the through‐space electrostatic contribution to the stereoselectivity on a relative scale. Thus, the ERP values can be used as a gauge for the electrostatic interactions between substituent groups and external stimuli.

Publisher

Wiley

Subject

General Medicine

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