Imma Escofet scite author profile

Abstraction of chloride anion from Au(I) complexes such as JohnPhosAuCl in noncoordinating solvents with 1 equiv of a silver salt, or even larger amounts, leads to the formation of chloride-bridged dinuclear gold(I) complexes, irrespective of the counteranion, which are substantially less reactive as catalysts. This incomplete removal of chloride ligand could lead to false negative results when using the in situ generation of the gold(I) active species by silver-promoted chloride abstraction.

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Anatomy of gold catalysts: facts and myths

Ranieri

2015

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Enantioselective Synthesis of Cyclobutenes by Intermolecular [2+2] Cycloaddition with Non-C₂ Symmetric Digold Catalysts

et al. 2017

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Enantioselective Folding of Enynes by Gold(I) Catalysts with a Remote C₂-Chiral Element

et al. 2019

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Chiral gold(I) catalysts have been designed based on a modified JohnPhos ligand with a distal C 2-2,5-diarylpyrrolidine that creates a tight binding cavity. The C 2-chiral element is close to where the C–C bond formation takes place in cyclizations of 1,6-enynes. These chiral mononuclear catalysts have been applied for the enantioselective 5-exo-dig and 6-endo-dig cyclization of different 1,6-enynes as well as in the first enantioselective total synthesis of three members of the carexane family of natural products. Opposite enantioselectivities have been achieved in seemingly analogous reactions of 1,6-enynes, which result from different chiral folding of the substrates based on attractive aryl–aryl interactions.

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Functional-Group-Tolerant, Silver-Catalyzed N–N Bond Formation by Nitrene Transfer to Amines

et al. 2017

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Silver(I) promotes the highly chemoselective N-amidation of tertiary amines under catalytic conditions to form aminimides by nitrene transfer from PhI═NTs. Remarkably, this transformation proceeds in a selective manner in the presence of olefins and other functional groups without formation of the commonly observed aziridines or C-H insertion products. The methodology can be applied not only to rather simple tertiary amines but also to complex natural molecules such as brucine or quinine, where the products derived from N-N bond formation were exclusively formed. Theoretical mechanistic studies have shown that this selective N-amidation reaction proceeds through triplet silver nitrenes.

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Imma Escofet

On the Silver Effect and the Formation of Chloride-Bridged Digold Complexes

Anatomy of gold catalysts: facts and myths

Enantioselective Synthesis of Cyclobutenes by Intermolecular [2+2] Cycloaddition with Non-C₂ Symmetric Digold Catalysts

Enantioselective Folding of Enynes by Gold(I) Catalysts with a Remote C₂-Chiral Element

Functional-Group-Tolerant, Silver-Catalyzed N–N Bond Formation by Nitrene Transfer to Amines

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Imma Escofet

On the Silver Effect and the Formation of Chloride-Bridged Digold Complexes

Anatomy of gold catalysts: facts and myths

Enantioselective Synthesis of Cyclobutenes by Intermolecular [2+2] Cycloaddition with Non-C2 Symmetric Digold Catalysts

Enantioselective Folding of Enynes by Gold(I) Catalysts with a Remote C2-Chiral Element

Functional-Group-Tolerant, Silver-Catalyzed N–N Bond Formation by Nitrene Transfer to Amines

Contact Info

Product

Resources

About

Enantioselective Synthesis of Cyclobutenes by Intermolecular [2+2] Cycloaddition with Non-C₂ Symmetric Digold Catalysts

Enantioselective Folding of Enynes by Gold(I) Catalysts with a Remote C₂-Chiral Element