Expanding Pd-Catalyzed C−N Bond-Forming Processes:  The First Amidation of Aryl Sulfonates, Aqueous Amination, and Complementarity with Cu-Catalyzed Reactions

Expanding Pd-Catalyzed C−N Bond-Forming Processes:  The First Amidation of Aryl Sulfonates, Aqueous Amination, and Complementarity with Cu-Catalyzed Reactions

The first general method for the Pd-catalyzed amination of aryl tosylates and benzenesulfonates was developed utilizing ligand 1, which belongs to a new generation of biaryl monophosphine ligands. In addition, the new catalyst system for the first time enables amidation of aryl arenesulfonates and a...

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Veröffentlicht in:Journal of the American Chemical Society 2003-06, Vol.125 (22), p.6653-6655
Hauptverfasser: Huang, Xiaohua, Anderson, Kevin W, Zim, Danilo, Jiang, Lei, Klapars, Artis, Buchwald, Stephen L
Format: Artikel
Sprache:eng
Schlagworte:
Amides - chemical synthesis
Amination
Amines - chemical synthesis
Arylsulfonates - chemistry
Benzene Derivatives - chemical synthesis
Benzene Derivatives - chemistry
Catalysis
Chemistry
Copper - chemistry
Exact sciences and technology
Organic chemistry
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Zusammenfassung:The first general method for the Pd-catalyzed amination of aryl tosylates and benzenesulfonates was developed utilizing ligand 1, which belongs to a new generation of biaryl monophosphine ligands. In addition, the new catalyst system for the first time enables amidation of aryl arenesulfonates and aqueous amination protocols that do not necessitate the use of cosolvents. The substrate scope has been significantly expanded to include aryl halides containing primary amides and free carboxylic acid groups. In the case of multifunctional substrates, the Pd-catalyzed amination can provide selectivity that is complementary to the Cu-catalyzed C−N bond-forming processes.
ISSN:0002-7863
1520-5126
DOI:10.1021/ja035483w