Aroylation of Electron-Rich Pyrroles under Minisci Reaction Conditions.

Laha, Joydev K; Kaur Hunjan, Mandeep; Hegde, Shalakha; Gupta, Anjali

Laha, Joydev K; Kaur Hunjan, Mandeep; Hegde, Shalakha; Gupta, Anjali.

Afiliação

Laha JK; Department of Pharmaceutical Technology (Process Chemistry) , National Institute of Pharmaceutical Education and Research , S. A. S. Nagar , Punjab 160062 , India.
Kaur Hunjan M; Department of Pharmaceutical Technology (Process Chemistry) , National Institute of Pharmaceutical Education and Research , S. A. S. Nagar , Punjab 160062 , India.
Hegde S; Department of Pharmaceutical Technology (Process Chemistry) , National Institute of Pharmaceutical Education and Research , S. A. S. Nagar , Punjab 160062 , India.
Gupta A; Department of Pharmaceutical Technology (Process Chemistry) , National Institute of Pharmaceutical Education and Research , S. A. S. Nagar , Punjab 160062 , India.

Org Lett ; 22(4): 1442-1447, 2020 Feb 21.

Article em En | MEDLINE | ID: mdl-32013457

RESUMO

The development of Minisci acylation on electron-rich pyrroles under silver-free neutral conditions has been reported featuring the regioselective monoacylation of (NH)-free pyrroles. Unlike conventional Minisci conditions, the avoidance of any acid that could result in the polymerization of pyrroles was the key to success. The umpolung reactivity of the nucleophilic acyl radical, generated in situ from arylglyoxylic acid, could help explain the mechanism of product formation with electron-rich pyrroles. Alternatively, the nucleophilic substitution of the acyl radical on the electron-deficient pyrrole radical cation is proposed.

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Texto completo: 1 Base de dados: MEDLINE Idioma: En Ano de publicação: 2020 Tipo de documento: Article

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Texto completo: 1 Base de dados: MEDLINE Idioma: En Ano de publicação: 2020 Tipo de documento: Article