Anita Schnyder scite author profile

R&D issues for the application of Pd-and Ni-catalyzed C À C and C À N coupling reactions in the fine chemicals industry are discussed. In a first part, some background is given on industrial R&D and the role of C À C and C À N coupling for preparative applications is described. The following principal approaches to industrial research are illustrated with relevant examples from the literature and from our own laboratories: i) development of catalysts and catalytic methodologies with industrial potential; ii) finding shorter routes to target molecules using catalytic methods; iii) development of industrial catalytic processes in multi-step syntheses.

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Schnyder¹,

Indolese²,

Studer³

et al. 2002

Angew. Chem.

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Synthesis of Primary Aromatic Amides by Aminocarbonylation of Aryl Halides Using Formamide as an Ammonia Synthon

Schnyder¹,

Beller²,

Mehltretter³

et al. 2001

J. Org. Chem.

122

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Primary aromatic amides were prepared by a palladium-catalyzed aminocarbonylation reaction of aryl halides in high yields (70-90%) using formamide as the amine source. The reactions require a palladium catalyst in combination with a nucleophilic Lewis base such as imidazole or 4-(dimethylamino)pyridine (DMAP). Aryl, heteroaryl, and vinyl bromides and chlorides were converted to the primary amides under mild conditions (5 bar, 120 degrees C) using 1 mol % of a palladium-phosphine complex. Best results were obtained in dioxane using triphenylphosphine as the ligand and DMAP as the base. For activated aryl bromides, a phosphine-to-palladium ratio of 2:1 was sufficient, but less reactive aryl bromides or aryl chlorides required ligand-to-palladium ratios up to 8:1 in order to stabilize the catalyst and achieve full conversion. The influence of catalyst, base, solvent, pressure, and temperature was studied in detail. The mechanism of the reaction could be clarified by isolating and identifying the reaction intermediates. In addition, methylamides and dimethylamides were prepared by the same method using N-methylformamide and N,N-dimethylformamide as the amine source.

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Anita Schnyder

A Novel Easily Accessible Chiral Ferrocenyldiphosphine for Highly Enantioselective Hydrogenation, Allylic Alkylation, and Hydroboration Reactions

Supported palladium catalysts for fine chemicals synthesis

Industrial R&D on Catalytic CC and CN Coupling Reactions: A Personal Account on Goals, Approaches and Results

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Synthesis of Primary Aromatic Amides by Aminocarbonylation of Aryl Halides Using Formamide as an Ammonia Synthon

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