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Literature DB >> 28731096

A Cu^I/Cu^III prototypical organometallic mechanism for the deactivation of an active pincer-like Cu^I catalyst in Ullmann-type couplings.

Mireia Rovira¹, Lucie Jašíková², Erik Andris², Ferran Acuña-Parés¹, Marta Soler¹, Imma Güell¹, Ming-Zheng Wang¹, Laura Gómez³, Josep M Luis¹, Jana Roithová², Xavi Ribas¹.

Abstract

Unraveling the mechanistic details of copper-catalyzed arylation of nucleophiles (Ullmann-type couplings) is a very challenging task. It is a matter of intense debate whether it is a radical-based process or an organometallic redox-based process. The ancillary ligand choice in Ullmann-type couplings plays a key role in such transformations and can strongly influence the catalytic efficiency as well as the mechanism. Here, we show how a predesigned tridentate pincer-like catalyst undergoes a deactivation pathway through a CuI/CuIII prototypical mechanism as demonstrated by helium-tagging infrared photodissociation (IRPD) spectroscopy and DFT studies, lending a strong support to the existence of an aryl-CuIII species in the Ullmann couplings using this tridentate ligand.

Entities: Chemical

Year: 2017 PMID： 28731096 DOI： 10.1039/c7cc04491g

Source DB: PubMed Journal: Chem Commun (Camb) ISSN： 1359-7345 Impact factor: 6.222

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Cited

4 in total

1. Mechanism of the Ullmann Biaryl Ether Synthesis Catalyzed by Complexes of Anionic Ligands: Evidence for the Reaction of Iodoarenes with Ligated Anionic Cu^I Intermediates.

Authors: Ramesh Giri; Andrew Brusoe; Konstantin Troshin; Justin Y Wang; Marc Font; John F Hartwig
Journal: J Am Chem Soc Date: 2018-01-05 Impact factor: 15.419

2. Synthetic and computational studies on CuI/ligand pair promoted activation of C(Aryl)-Cl bond in C-N coupling reactions.

Authors: Kamlesh K Gurjar; Rajendra K Sharma
Journal: Heliyon Date: 2020-02-04

3. Bis-Phenoxo-Cu^II₂ Complexes: Formal Aromatic Hydroxylation via Aryl-Cu^III Intermediate Species.

Authors: Xavi Ribas; Raül Xifra; Xavier Fontrodona
Journal: Molecules Date: 2020-10-09 Impact factor: 4.411

4. Site-Selective C-H Oxygenation via Aryl Sulfonium Salts.

Authors: Ruocheng Sang; Stamatis E Korkis; Wanqi Su; Fei Ye; Pascal S Engl; Florian Berger; Tobias Ritter
Journal: Angew Chem Int Ed Engl Date: 2019-09-24 Impact factor: 15.336

4 in total

A CuI/CuIII prototypical organometallic mechanism for the deactivation of an active pincer-like CuI catalyst in Ullmann-type couplings.

1. Mechanism of the Ullmann Biaryl Ether Synthesis Catalyzed by Complexes of Anionic Ligands: Evidence for the Reaction of Iodoarenes with Ligated Anionic CuI Intermediates.

2. Synthetic and computational studies on CuI/ligand pair promoted activation of C(Aryl)-Cl bond in C-N coupling reactions.

3. Bis-Phenoxo-CuII2 Complexes: Formal Aromatic Hydroxylation via Aryl-CuIII Intermediate Species.

4. Site-Selective C-H Oxygenation via Aryl Sulfonium Salts.

A Cu^I/Cu^III prototypical organometallic mechanism for the deactivation of an active pincer-like Cu^I catalyst in Ullmann-type couplings.

1. Mechanism of the Ullmann Biaryl Ether Synthesis Catalyzed by Complexes of Anionic Ligands: Evidence for the Reaction of Iodoarenes with Ligated Anionic Cu^I Intermediates.

3. Bis-Phenoxo-Cu^II₂ Complexes: Formal Aromatic Hydroxylation via Aryl-Cu^III Intermediate Species.