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Literature DB >> 25078761

Catalytic methylation of C-H bonds using CO₂ and H₂.

Yuehui Li¹, Tao Yan, Kathrin Junge, Matthias Beller.

Abstract

Formation of C-C bonds from CO2 is a much sought after reaction in organic synthesis. To date, other than C-H carboxylations using stoichiometric amounts of metals, base, or organometallic reagents, little is known about C-C bond formation. In fact, to the best of our knowledge no catalytic methylation of C-H bonds using CO2 and H2 has been reported. Described herein is the combination of CO2 and H2 for efficient methylation of carbon nucleophiles such as indoles, pyrroles, and electron-rich arenes. Comparison experiments which employ paraformaldehyde show similar reactivity for the CO2/H2 system.

Entities: Chemical

Keywords: CH activation; carbon dioxide; heterocycles; hydrogen; ruthenium

Year: 2014 PMID： 25078761 DOI： 10.1002/anie.201405779

Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN： 1433-7851 Impact factor: 15.336

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Cited

5 in total

Catalytic methylation of C-H bonds using CO₂ and H₂.

1. B(C₆F₅)₃-Catalyzed Direct C3 Alkylation of Indoles and Oxindoles.

2. Synthesis of acetic acid via methanol hydrocarboxylation with CO2 and H2.

3. Cobalt-catalysed reductive C-H alkylation of indoles using carboxylic acids and molecular hydrogen.

4. Unprecedented selective homogeneous cobalt-catalysed reductive alkoxylation of cyclic imides under mild conditions.

5. Highly selective hydrogenation of CO₂ into C₂₊ alcohols by homogeneous catalysis.

Catalytic methylation of C-H bonds using CO₂ and H₂.

1. B(C6F5)3-Catalyzed Direct C3 Alkylation of Indoles and Oxindoles.

2. Synthesis of acetic acid via methanol hydrocarboxylation with CO2 and H2.

3. Cobalt-catalysed reductive C-H alkylation of indoles using carboxylic acids and molecular hydrogen.

4. Unprecedented selective homogeneous cobalt-catalysed reductive alkoxylation of cyclic imides under mild conditions.

5. Highly selective hydrogenation of CO2 into C2+ alcohols by homogeneous catalysis.

1. B(C₆F₅)₃-Catalyzed Direct C3 Alkylation of Indoles and Oxindoles.

5. Highly selective hydrogenation of CO₂ into C₂₊ alcohols by homogeneous catalysis.