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Literature DB >> 32045254

Cobalt-Catalyzed Acceptorless Dehydrogenation of Alcohols to Carboxylate Salts and Hydrogen.

Deepak Ranjan Pradhan¹, Sandip Pattanaik¹, Jugal Kishore¹, Chidambaram Gunanathan¹.

Abstract

The facile oxidation of alcohols to carboxylate salts and H2 is achieved using a simple and readily accessible cobalt pincer catalyst (NNNHtBuCoBr2). The reaction follows an acceptorless dehydrogenation pathway and displays good functional group tolerance. The amine-amide metal-ligand cooperation in cobalt catalyst is suggested to facilitate this transformation. The mechanistic studies indicate that in-situ-formed aldehydes react with a base through a Cannizzaro-type pathway, resulting in potassium hemiacetolate, which further undergoes catalytic dehydrogenation to provide the carboxylate salts and H2.

Entities: Chemical

Year: 2020 PMID： 32045254 DOI： 10.1021/acs.orglett.0c00193

Source DB: PubMed Journal: Org Lett ISSN： 1523-7052 Impact factor: 6.005

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Cited

3 in total

1. Dehydrogenative ester synthesis from enol ethers and water with a ruthenium complex catalyzing two reactions in synergy.

Authors: Sayan Kar; Jie Luo; Michael Rauch; Yael Diskin-Posner; Yehoshoa Ben-David; David Milstein
Journal: Green Chem Date: 2022-02-04 Impact factor: 10.182

2. Oxidation of Organic Compounds Using Water as the Oxidant with H₂ Liberation Catalyzed by Molecular Metal Complexes.

Authors: Sayan Kar; David Milstein
Journal: Acc Chem Res Date: 2022-07-26 Impact factor: 24.466

3. Activation of H-H, HO-H, C(sp²)-H, C(sp³)-H, and RO-H Bonds by Transition-Metal Frustrated Lewis Pairs Based on M/N (M = Rh, Ir) Couples.

Authors: María Carmona; Roberto Pérez; Joaquina Ferrer; Ricardo Rodríguez; Vincenzo Passarelli; Fernando J Lahoz; Pilar García-Orduña; Daniel Carmona
Journal: Inorg Chem Date: 2022-08-10 Impact factor: 5.436

3 in total

Cobalt-Catalyzed Acceptorless Dehydrogenation of Alcohols to Carboxylate Salts and Hydrogen.

1. Dehydrogenative ester synthesis from enol ethers and water with a ruthenium complex catalyzing two reactions in synergy.

2. Oxidation of Organic Compounds Using Water as the Oxidant with H2 Liberation Catalyzed by Molecular Metal Complexes.

3. Activation of H-H, HO-H, C(sp2)-H, C(sp3)-H, and RO-H Bonds by Transition-Metal Frustrated Lewis Pairs Based on M/N (M = Rh, Ir) Couples.

2. Oxidation of Organic Compounds Using Water as the Oxidant with H₂ Liberation Catalyzed by Molecular Metal Complexes.

3. Activation of H-H, HO-H, C(sp²)-H, C(sp³)-H, and RO-H Bonds by Transition-Metal Frustrated Lewis Pairs Based on M/N (M = Rh, Ir) Couples.