Directionality and the Role of Polarization in Electric Field Effects on Radical Stability

Abstract:

ccurate quantum-chemical calculations are used to analyze the effects of charges on the kinetics and thermodynamics of radical reactions, with specific attention given to the origin and directionality of the effects. Conventionally, large effects of the charges are expected to occur in systems with pronounced charge-separated resonance contributors. The nature (stabilization or destabilization) and magnitude of these effects thus depend on the orientation of the interacting multipoles. However, we show that a significant component of the stabilizing effects of the external electric field is largely independent of the orientation of external electric field (e.g. a charged functional group, a point charge, or an electrode) and occurs even in the absence of any pre-existing charge separation. This effect arises from polarization of the electron density of the molecule induced by the electric field. This polarization effect is greater for highly delocalized species such as resonance-stabilized radicals and transition states of radical reactions. We show that this effect on the stability of such species is preserved in chemical reaction energies, leading to lower bond-dissociation energies and barrier heights. Finally, our simplified modelling of the diol dehydratase-catalyzed 1,2-hydroxyl shift indicates that such stabilizing polarization is likely to contribute to the catalytic activity of enzymes.

SEEK ID: https://publications.h-its.org/publications/502

DOI: 10.1071/CH16579

Research Groups: Computational Carbon Chemistry

Publication type: Journal

Journal: Australian Journal of Chemistry

Citation: Aust. J. Chem. 70(4):367

Date Published: 2017

Registered Mode: by DOI

Authors: Ganna Gryn'ova, Michelle L. Coote

help Submitter
Citation
Gryn'ova, G., & Coote, M. L. (2017). Directionality and the Role of Polarization in Electric Field Effects on Radical Stability. In Australian Journal of Chemistry (Vol. 70, Issue 4, p. 367). CSIRO Publishing. https://doi.org/10.1071/ch16579
Activity

Views: 5850

Created: 5th Nov 2019 at 13:56

Last updated: 5th Mar 2024 at 21:23

help Tags

This item has not yet been tagged.

help Attributions

None

Powered by
(v.1.14.2)
Copyright © 2008 - 2023 The University of Manchester and HITS gGmbH