Issue 56, 2024

Peroxodicarbonate – a renaissance of an electrochemically generated green oxidizer

Abstract

The direct anodic conversion of alkali carbonates in aqueous media provides access to peroxodicarbonate, which is a safe to use and green oxidizer. Although first reports date back around 150 years, its low concentrations and limited thermal stability have consigned this reagent to oblivion. Boron-doped diamond anodes, novel electrolyser concepts for heat dissipation, and the mixed cation trick allow record breaking peroxodicarbonate concentrations >900 mM. The electrochemical generation of peroxodicarbonate was already demonstrated on a pilot scale. The inherent safety is ensured by the limited stability of the peroxodicarbonate solution, which decomposes under ambient conditions to oxygen and facilitates subsequent downstream processing. This peroxide has, in particular at higher concentrations, an unusual reactivity and seems to be an ideal reagent when peroxo-equivalents in combination with alkaline base are required. The conversions with peroxodicarbonate include the Dakin reaction, epoxidation, oxidation of amines (aliphatic and aromatic) and sulfur compounds, deborolative hydroxylation reactions, and many more. Since the base equivalents also represent the makeup chemical for pulping plants, peroxodicarbonate is an ideal reagent for the selective degradation of lignin to vanillin. Moreover, peroxodicarbonate can be used as a halogen-free bleaching agent. The emerging electrogeneration and use of this green platform oxidizer are surveyed for the first time.

Graphical abstract: Peroxodicarbonate – a renaissance of an electrochemically generated green oxidizer

Article information

Article type
Feature Article
Submitted
22 May 2024
Accepted
14 Jun 2024
First published
17 Jun 2024
This article is Open Access
Creative Commons BY license

Chem. Commun., 2024,60, 7136-7147

Peroxodicarbonate – a renaissance of an electrochemically generated green oxidizer

T. Rücker, N. Schupp, F. Sprang, T. Horsten, B. Wittgens and S. R. Waldvogel, Chem. Commun., 2024, 60, 7136 DOI: 10.1039/D4CC02501F

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