Issue 23, 2023

Quantitative evaluation of H-donating abilities of C(sp3)–H bonds of nitrogen-containing heterocycles in hydrogen atom transfer reaction

Abstract

Nitrogen-containing heterocycles are an important class of antioxidants, and their reactivity and selectivity in hydrogen atom reactions have attracted significant interest from chemists. In this work, the kinetics of hydrogen atom transfer reactions from C(sp3)–H bonds of 28 nitrogen-containing heterocycles, oxygen-containing heterocycles, alicyclic amines and cycloalkanes, which were denoted as XH, to the CumO˙ radical, were investigated. The characteristic physical parameter of the substrate, i.e., the thermo–kinetic parameter ΔG≠o(XH), was determined using the kinetic equation [ΔGXH/Y = ΔG≠o(XH) + ΔG≠o(Y)] to quantitatively evaluate the H-donating ability of XH. The effects of the substrate structure, substituent attached to the nitrogen atom, and ring size on the H-donating ability were discussed carefully. By comparing the H-donating abilities of cycloalkanes, alicyclic amines and nitrogen/oxygen-containing heterocycles, the influence of the introduction of N, O, or carbonyl groups in the carbon ring on the H-donating ability of C(sp3)–H bond was determined. The electronic, steric and stereo-electronic effects of the groups were also discussed. Herein, we not only quantitatively determined the H-donating ability of the substrate, but also provided ideas for the synthesis of new antioxidants.

Graphical abstract: Quantitative evaluation of H-donating abilities of C(sp3)–H bonds of nitrogen-containing heterocycles in hydrogen atom transfer reaction

Supplementary files

Article information

Article type
Paper
Submitted
04 Apr 2023
Accepted
10 May 2023
First published
30 May 2023
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2023,13, 16023-16033

Quantitative evaluation of H-donating abilities of C(sp3)–H bonds of nitrogen-containing heterocycles in hydrogen atom transfer reaction

Y. Fu, T. Jia, G. Shen and X. Zhu, RSC Adv., 2023, 13, 16023 DOI: 10.1039/D3RA02211K

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