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MOF‐Stabilized Perfluorinated Palladium Cages Catalyze the Additive‐Free Aerobic Oxidation of Aliphatic Alcohols to Acids

Rossella Greco, Estefanía Tiburcio, Antonio Fernandez, Carlo Marini, Alejandro Vidal‐Moya, Judit Oliver–Meseguer, Donatella Armentano, Emilio Pardo, Jesús Ferrando–Soria, Antonio Leyva‐Pérez

2021Chemistry - A European Journal14 citationsDOIOpen Access PDF

Abstract

Abstract Extremely high electrophilic metal complexes, composed by a metal cation and very electron poor σ‐donor ancillary ligands, are expected to be privileged catalysts for oxidation reactions in organic chemistry. However, their low lifetime prevents any use in catalysis. Here we show the synthesis of fluorinated pyridine‐Pd 2+ coordinate cages within the channels of an anionic tridimensional metal‐organic framework (MOF), and their use as efficient metal catalysts for the aerobic oxidation of aliphatic alcohols to carboxylic acids without any additive. Mechanistic studies strongly support that the MOF‐stabilized coordination cage with perfluorinated ligands unleashes the full electrophilic potential of Pd 2+ to dehydrogenate primary alcohols, without any base, and also to activate O 2 for the radical oxidation to the aldehyde intermediate. This study opens the door to design catalytic perfluorinated complexes for challenging organic transformations, where an extremely high electrophilic metal site is required.

Topics & Concepts

ElectrophileChemistryCatalysisPyridineAlcohol oxidationPalladiumAldehydeOrganic chemistryMetalMetal-organic frameworkCombinatorial chemistryPolymer chemistryAdsorptionMetal-Organic Frameworks: Synthesis and ApplicationsOxidative Organic Chemistry ReactionsCovalent Organic Framework Applications
MOF‐Stabilized Perfluorinated Palladium Cages Catalyze the Additive‐Free Aerobic Oxidation of Aliphatic Alcohols to Acids | Litcius