Issue 15, 2019

Highly efficient and practical aerobic oxidation of alcohols by inorganic-ligand supported copper catalysis

Abstract

The oxidation of alcohols to aldehydes or ketones is a highly relevant conversion for the pharmaceutical and fine-chemical industries, and for biomass conversion, and is commonly performed using stoichiometric amounts of highly hazardous oxidants. The aerobic oxidation of alcohols with transition metal complex catalysts previously required complicated organic ligands and/or nitroxyl radicals as co-catalysts. Herein, we report an efficient and eco-friendly method to promote the aerobic oxidation of alcohols using an inorganic-ligand supported copper catalyst 1, (NH4)4[CuMo6O18(OH)6], with O2 (1 atm) as the sole oxidant. Catalyst 1 is synthesized directly from cheap and commonly available (NH4)6Mo7O24·4H2O and CuSO4, which consists of a pure inorganic framework built from a central CuII core supported by six MoVIO6 inorganic scaffolds. The copper catalyst 1 exhibits excellent selectivity and activity towards a wide range of substrates in the catalytic oxidation of alcohols, and can avoid the use of toxic oxidants, nitroxyl radicals, and potentially air/moisture sensitive and complicated organic ligands that are not commercially available. Owing to its robust inorganic framework, catalyst 1 shows good stability and reusability, and the catalytic oxidation of alcohols with catalyst 1 could be readily scaled up to gram scale with little loss of catalytic activity, demonstrating great potential of the inorganic-ligand supported Cu catalysts in catalytic chemical transformations.

Graphical abstract: Highly efficient and practical aerobic oxidation of alcohols by inorganic-ligand supported copper catalysis

Supplementary files

Article information

Article type
Paper
Submitted
16 Apr 2019
Accepted
18 Jun 2019
First published
19 Jun 2019

Green Chem., 2019,21, 4069-4075

Highly efficient and practical aerobic oxidation of alcohols by inorganic-ligand supported copper catalysis

Z. Wei, S. Ru, Q. Zhao, H. Yu, G. Zhang and Y. Wei, Green Chem., 2019, 21, 4069 DOI: 10.1039/C9GC01248F

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