Issue 39, 2022
From the journal:

Chemical Communications

Electrostatically-gated molecular rotors

Binzhou Lin,a   Ishwor Karki,a   Perry J. Pellechiaa  and  Ken D. Shimizu ORCID logo *a  

* Corresponding authors

a Department of Chemistry and Biochemistry, University of South Carolina, Columbia, SC 29208, USA
E-mail: shimizu@mailbox.sc.edu

Abstract

The ability to control molecular-scale motion using electrostatic interactions was demonstrated using an N-phenylsuccinimide molecular rotor with an electrostatic pyridyl-gate. Protonation of the pyridal-gate forms stabilizing electrostatic interactions in the transition state of the bond rotation process that lowers the rotational barrier and increases the rate of rotation by two orders of magnitude. Molecular modeling and energy decomposition analysis confirm the dominant role of attractive electrostatic interactions in lowering the bond rotation transition state.

Graphical abstract: Electrostatically-gated molecular rotors

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Article information

DOI
https://doi.org/10.1039/D2CC00512C
Article type
Communication
Submitted
25 Jan 2022
Accepted
19 Apr 2022
First published
19 Apr 2022

Chem. Commun., 2022,58, 5869-5872

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Electrostatically-gated molecular rotors

B. Lin, I. Karki, P. J. Pellechia and K. D. Shimizu, Chem. Commun., 2022, 58, 5869 DOI: 10.1039/D2CC00512C

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