Issue 5, 2023

Quantifiable polarity match effect on C–H bond cleavage reactivity and its limits in reaction design

Abstract

When oxidants favour cleaving a strong C−H bond at the expense of weaker ones, which are otherwise inherently preferred due to their favourable reaction energy, reactivity factors such as the polarity match effect are often invoked. Polarity match follows the intuition of electrophilic (nucleophilic) oxidants reacting faster with nucleophilic (electrophilic) C−H bonds. Nevertheless, this concept is purely qualitative and is best suited for a posteriori rationalization of experimental observations. Here, we propose and inspect two methods to quantify polar effects in C−H cleavage reactions, one by computation via the difference of atomic charges (Δq) of reacting atoms, and one amenable to experimental measurement through asynchronicity factors, η. By their application to three case studies, we observe that both Δq and η faithfully capture the notion of polarity match. The polarity match model, however, proves insufficient as a predictor of H-atom abstraction reactivity and we discourage its use as a standalone variable in reaction design. Besides this caveat, η and Δq (through its mapping on η) allow the implementation of polarity match into a Marcus-type model of reactivity, alleviating its shortcomings and making reaction planning feasible.

Graphical abstract: Quantifiable polarity match effect on C–H bond cleavage reactivity and its limits in reaction design

Supplementary files

Article information

Article type
Paper
Submitted
14 Dec 2022
Accepted
02 Jan 2023
First published
04 Jan 2023
This article is Open Access
Creative Commons BY license

Dalton Trans., 2023,52, 1399-1412

Quantifiable polarity match effect on C–H bond cleavage reactivity and its limits in reaction design

M. Maldonado-Domínguez and M. Srnec, Dalton Trans., 2023, 52, 1399 DOI: 10.1039/D2DT04018B

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