Enantiotopos-selective C-H oxygenation catalyzed by a supramolecular ruthenium complex

James R. Frost; Stefan M. Huber; Stefan Breitenlechner; Christoph Bannwarth; Thorsten Bach

doi:10.1002/anie.201409224

Enantiotopos-selective C-H oxygenation catalyzed by a supramolecular ruthenium complex

James R. Frost, Stefan M. Huber, Stefan Breitenlechner, Christoph Bannwarth, Thorsten Bach

Chair of Organic Chemistry 1

Research output: Contribution to journal › Article › peer-review

103 Scopus citations

Abstract

Spirocyclic oxindoles undergo an enantioselective oxygenation reaction (nine examples; e.r. up to 97:3) upon catalysis by a chiral ruthenium porphyrin complex (1 mol%). The catalyst exhibits a lactam ring, which is responsible for substrate association through hydrogen bonds, and an active ruthenium center, which is in a defined spatial relationship to the oxygenation substrate. DFT calculations illustrate the perfect alignment of the active site with the reactive C-H bond and suggest-in line with the kinetic isotope effect-an oxygen rebound mechanism for the reaction.

Original language	English
Pages (from-to)	691-695
Number of pages	5
Journal	Angewandte Chemie International Edition in English
Volume	54
Issue number	2
DOIs	https://doi.org/10.1002/anie.201409224
State	Published - 7 Jan 2015

Keywords

Asymmetric catalysis
Enantioselectivity
Hydrogen bond
Oxygenation
Ruthenium

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10.1002/anie.201409224

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title = "Enantiotopos-selective C-H oxygenation catalyzed by a supramolecular ruthenium complex",

abstract = "Spirocyclic oxindoles undergo an enantioselective oxygenation reaction (nine examples; e.r. up to 97:3) upon catalysis by a chiral ruthenium porphyrin complex (1 mol%). The catalyst exhibits a lactam ring, which is responsible for substrate association through hydrogen bonds, and an active ruthenium center, which is in a defined spatial relationship to the oxygenation substrate. DFT calculations illustrate the perfect alignment of the active site with the reactive C-H bond and suggest-in line with the kinetic isotope effect-an oxygen rebound mechanism for the reaction.",

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AU - Frost, James R.

AU - Huber, Stefan M.

AU - Breitenlechner, Stefan

AU - Bannwarth, Christoph

AU - Bach, Thorsten

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AB - Spirocyclic oxindoles undergo an enantioselective oxygenation reaction (nine examples; e.r. up to 97:3) upon catalysis by a chiral ruthenium porphyrin complex (1 mol%). The catalyst exhibits a lactam ring, which is responsible for substrate association through hydrogen bonds, and an active ruthenium center, which is in a defined spatial relationship to the oxygenation substrate. DFT calculations illustrate the perfect alignment of the active site with the reactive C-H bond and suggest-in line with the kinetic isotope effect-an oxygen rebound mechanism for the reaction.

KW - Asymmetric catalysis

KW - Enantioselectivity

KW - Hydrogen bond

KW - Oxygenation

KW - Ruthenium

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Enantiotopos-selective C-H oxygenation catalyzed by a supramolecular ruthenium complex

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