2.12 Asymmetric C—H Oxidation with Biologically Inspired Manganese and Iron Catalysts
Buch
Herausgeber: Yoshikai, N.
Titel: Base-Metal Catalysis 2
Print ISBN: 9783132455030; Online ISBN: 9783132455054; Buch-DOI: 10.1055/b000000440
1st edition © 2023 Thieme. All rights reserved.
Georg Thieme Verlag KG, Stuttgart
Fachgebiete: Organische Chemie;Chemische Reaktionen, Katalyse;Organometallchemie;Chemische Labormethoden, Stöchiometrie
Science of Synthesis Reference Libraries
Übergeordnete Publikation
Titel: Science of Synthesis
DOI: 10.1055/b-00000101
Reihenherausgeber: Fürstner, A. (Editor-in-Chief); Carreira, E. M.; Faul, M.; Kobayashi, S.; Koch, G.; Molander, G. A.; Nevado, C.; Trost, B. M.; You, S.-L.
Typ: Mehrbändiges Werk
Abstract
Enantioselective oxidation of aliphatic C—H bonds is the most straightforward and atom-economical approach to prepare chiral oxygenated hydrocarbon skeletons, which are ubiquitous in molecules of biological and industrial relevance. In Nature, this reaction is carried out by metalloenzymes with high levels of efficiency and selectivity. Due to the exquisite performance of enzymatic systems, their active site has served as inspiration for the exploration of artificial catalysts, such as those based on porphyrins or coordination compounds with tetradentate salen- or bis-amine-bis-pyridine-type ligands. Reviewed herein are the latest advances in enantioselective C—H oxidations using biologically inspired iron and manganese complexes.
Schlüsselwörter
iron catalysis - manganese catalysis - C–H functionalization - oxidation - asymmetric synthesis - bioinspired complexes - catalyst design - porphyrins - salen ligands - enantioselectivity-
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