On the Use of Triarylsilanols as Catalysts for Direct Amidation of Carboxylic Acids

被引：11

作者：

Braddock, D. Christopher ^{[1
]}

Rowley, Ben C. ^{[1
]}

Lickiss, Paul D. ^{[1
]}

Fussell, Steven J. ^{[2
]}

Qamar, Rabia ^{[1
]}

Pugh, David ^{[3
]}

Rzepa, Henry S. ^{[1
]}

White, Andrew J. P. ^{[1
]}

机构：

[1] Imperial Coll London, Dept Chem, London W12 0BZ, England

[2] Pfizer Ltd, Sandwich CT13 9NJ, Kent, England

[3] Kings Coll London, Dept Chem, London SE1 1DB, England

来源：

JOURNAL OF ORGANIC CHEMISTRY | 2023年 / 88卷 / 14期

基金：

英国工程与自然科学研究理事会;

关键词：

PEPTIDE-BOND FORMATION; DIRECT AMIDE FORMATION; CHEMISTRY RESEARCH AREAS; ORGANOSILICON COMPOUNDS; AMINO-ACIDS; ORGANOCATALYTIC ACTIVATION; EFFICIENT CATALYST; COUPLING REAGENT; CARBOXAMIDES; SILANEDIOL;

D O I：

10.1021/acs.joc.3c00585

中图分类号：

O62 [有机化学];

学科分类号：

070303 ; 081704 ;

摘要：

Triarylsilanols have been reported as the first silicon-centered molecular catalysts for direct amidation of carboxylic acids with amines as identified after a screen of silanols, silanediols, disiloxanediols, and incompletely condensed silsesquioxanes as potential homogeneous catalysts. Subsequent synthesis and testing of various electronically differentiated triarylsilanols have identified tris(p-haloaryl)silanols as more active than the parent triarylsilanol, where the bromide congener is found to be the most active. Catalyst decomposition can be observed by NMR methods, but RPKA methods reveal that product inhibition is operative, where tertiary amides are more inhibitory than secondary amides. Studies using an authentically synthesized triaryl silylester as a putative intermediate in the catalytic system enable a plausible mechanism to be proposed as supported by computationals.

引用

页码：9853 / 9869

页数：17

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