期刊
JOURNAL OF SYNTHETIC ORGANIC CHEMISTRY JAPAN
卷 79, 期 5, 页码 417-426出版社
SOC SYNTHETIC ORGANIC CHEM JPN
关键词
carboxylic acid; chemoselectivity; enolate; radical; alpha-amination; alpha-oxidation; late-stage functionalization
Enolization of carboxylic acid derivatives is a challenging task due to the low acidity of alpha-protons, requiring strong bases for efficient activation. Recent developments in catalytic methods have shown potential for chemoselective activation of carboxylic acids through a radical process, allowing for concise synthesis of diverse unnatural derivatives.
Enolization of carboxylic acid derivatives is the central science of fundamental carbonyl chemistry. The catalytic methods to activate carboxylic acid remained unexplored due to the intrinsic low acidity of alpha-protons, although enormous examples of catalytic activation (enolization) method for aldehydes, ketones, and ester derivatives have been reporteld. The innate Bronsted acidic carboxylic.acid functionality also disrupts the deprotonation Of alpha-protons. Therefore, more than two equivalents of a strong base such as lithium diisoprOpylamide are required for efficient enolization, which makes chemoselective enolization of carboxylico acid over more acidic carbonyls a formidable task. Furthermore, recent enolization methods were only applied to redox-neutral coupling using 2e(-) electrophiles and catalytic alpha-functionalization of carboxylic acids through a le(-) radical process, which could complement the chemolectivity, and functional group tolerance restricted in the classical 2e(-) ion reaction, has never been achieved. Herein, we developed chemoselective catalytic activation of carboxylic acid equivalent, acylpyrazole, and carboxylic acid for a le(-) radical process without external addition of stoichiometric amounts of Bronsted base. The present chemoselective catalysis could be applied to late-stage aamination and oxidation, allowing for concise access to highly versatile unnatural 'a-amino acid and hydroxy acid derivatives. Moreover, chemoselective a-functionalization of less reactive carboxylic acids was achieved over innately more reactive carbonyl functionalities.
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