Manganese() complexes stabilized with N-heterocyclic carbene ligands for alcohol oxidation catalysis

The chemistry of N-heterocyclic carbenes with Earth-abundant manganese has largely focused on low-valent systems for reductive catalysis. Here, we have decorated imidazole- and triazole-derived carbenes with phenol substituents to access higher-valent Mn( iii ) complexes [Mn( O , C , O )(acac)], whe...

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Bibliographic Details
Published in:Dalton transactions : an international journal of inorganic chemistry 2023-06, Vol.52 (23), p.7992-82
Main Authors: Rigoni, Giacomo, Nylund, Pamela V. S, Albrecht, Martin
Format: Article
Language:English
Subjects:
Alcohols
Aldehydes
Carbenes
Carboxylic acids
Catalysis
Chemistry
Hydrogen atoms
Imidazole
Infrared spectroscopy
Manganese
Oxidation
Oxidizing agents
Substrates
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Summary:The chemistry of N-heterocyclic carbenes with Earth-abundant manganese has largely focused on low-valent systems for reductive catalysis. Here, we have decorated imidazole- and triazole-derived carbenes with phenol substituents to access higher-valent Mn( iii ) complexes [Mn( O , C , O )(acac)], where acac = acetylacetonato, and O , C , O = bis(phenolate)imidazolylidene ( 1 ) or bis(phenolate)triazolylidene ( 2 ). Both complexes catalyze the oxidation of alcohols in the presence of t BuOOH as terminal oxidant. Complex 2 is slightly more active than 1 (TOF up to 540 h −1 vs. 500 h −1 ), yet significantly more robust towards deactivation. Secondary and primary alcohols are oxidized, the latter with high selectivity and essentially no overoxidation of the aldehyde product to carboxylic acids unless the reaction time is substantially extended. Mechanistic investigations using Hammett parameters, IR spectroscopy, isotope labelling experiments, and specific substrates and oxidants as probes support the formation of a manganese( v ) oxo system as the active species and subsequent turnover-limiting hydrogen atom abstraction. Manganese( iii ) complexes containing a bis(phenolate)carbene ligand catalyze the oxidation of alcohols and amines using t BuOOH as terminal oxidant. Mechanistic investigations indicate a Mn( v ) oxo active species that induces hydrogen atom abstraction.
ISSN:1477-9226
1477-9234
DOI:10.1039/d3dt01013a