What question did this study set out to answer?

The study aims to evaluate a cheap organocatalyst for the aerobic oxidation of benzylic C(sp3)–H bonds in ethers.

May 10, 2026

Metal‐Free 4‐OH‐TEMPO + NO 3 − ‐Catalyzed Aerobic Oxidation of Benzylic C(sp 3 )–H Bonds in Ethers

Key Points

The study aims to evaluate a cheap organocatalyst for the aerobic oxidation of benzylic C(sp3)–H bonds in ethers.
Utilized [4-OH-TEMPO]+[NO3]− as an organocatalyst under mild reaction conditions.
Examined the reaction mechanism involving hydride abstraction and carbocation formation.
Conducted experiments to assess the efficiency of the catalyst on a 10 mmol scale.
The oxidation produces lactones or ketones in excellent yields with the new catalyst.
Confirmed the necessity of the carbocation intermediate for the reaction's progress.
Demonstrated that the oxygen in the product originates from water.

Abstract

A cheap organocatalyst, 4‐OH‐TEMPO + NO 3 − , is presented for the aerobic oxidation of benzylic C(sp 3 )H bonds in ethers. The catalytic efficiency is attributed to the cooperative action of both the cation and anion moieties. The oxoammonium cation facilitates hydride abstraction from the C(sp 3 )H bond, generating a stabilized carbocation intermediate, which is subsequently attacked by water to form the CO bond. Meanwhile, the nitrate anion participates in a NO x /O 2 cycle, regenerating the oxoammonium cation from its reduced hydroxylamine form. Under mild reaction conditions, this salt catalyzes the oxidation of ethers to produce lactones or ketones in excellent yields, even on a 10 mmol scale. Control experiments confirm that the carbocation intermediate is essential to the reaction and that the oxygen atom in the product is derived from water.

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Metal‐Free 4‐OH‐TEMPO + NO 3 − ‐Catalyzed Aerobic Oxidation of Benzylic C(sp 3 )–H Bonds in Ethers

Key Points

Abstract

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