Issue 25, 2023

The elusive active species in nickel(ii)-mediated oxidations of hydrocarbons by peracids: a NiII–oxyl species, an aroyloxy radical, or a NiII–peracid complex?

Abstract

Nonheme nickel(II)-mediated oxidations of hydrocarbons by meta-chloroperbenzoic acid (mCPBA) show promising activity and selectivity; however, the active species and the reaction mechanism of these reactions are still elusive after decades of efforts. Herein, a novel free radical chain mechanism of the Ni(II)-mediated oxidation of cyclohexane by mCPBA is investigated using density functional theory calculations. In this study, we rule out the involvement of a long speculated NiII–oxyl species. Instead, an aroyloxy radical (mCBA˙) and a NiIII–hydroxyl species formed by a rate-limiting O–O homolysis of a NiIImCPBA complex are active species in the C–H bond activation to form a carbon-centered radical R˙, where mCBA˙ is more robust than the NiIII–hydroxyl species. The nascent R˙ radical either reacts with mCPBA to form a hydroxylated product and a mCBA˙ radical to propagate the radical chain or reacts with the solvent dichloromethane to form a chlorinated product. In addition, the NiIImCPBA complex is found for the first time to be a robust oxidant in hydroxylation of cyclohexane, with an activation energy of 13.4 kcal mol−1. These mechanistic findings support the free radical chain mechanism and enrich the mechanistic knowledge of metal–peracid oxidation systems containing transition metals after group 8 in periodic table of elements.

Graphical abstract: The elusive active species in nickel(ii)-mediated oxidations of hydrocarbons by peracids: a NiII–oxyl species, an aroyloxy radical, or a NiII–peracid complex?

Supplementary files

Article information

Article type
Paper
Submitted
28 Apr 2023
Accepted
06 Jun 2023
First published
08 Jun 2023

Dalton Trans., 2023,52, 8676-8684

The elusive active species in nickel(II)-mediated oxidations of hydrocarbons by peracids: a NiII–oxyl species, an aroyloxy radical, or a NiII–peracid complex?

Z. Wu, D. Sun, Y. Lee, Y. Zhao, W. Nam and Y. Wang, Dalton Trans., 2023, 52, 8676 DOI: 10.1039/D3DT01276J

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