Acetic Acid-Catalyzed Selective Synthesis of N-Substituted 2-Amino-3-Cyanopyrroles via a Three-Component Reaction Between Carbohydrates, Primary Amines and Malononitrile

Mengxin Xia; Ziad Moussa; Zaher M.A. Judeh

doi:10.1002/ajoc.202200367

Acetic Acid-Catalyzed Selective Synthesis of N-Substituted 2-Amino-3-Cyanopyrroles via a Three-Component Reaction Between Carbohydrates, Primary Amines and Malononitrile

Mengxin Xia, Ziad Moussa, Zaher M.A. Judeh^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

Direct conversion of unprotected carbohydrates to N-heterocycles is challenging and highly desirable. A simple three-component synthesis of N-substituted 2-amino-3-cyanopyrrole key framework is developed from the reaction between unprotected carbohydrates, malononitrile, and primary amines. The reaction proceeded under mild reaction conditions (AcOH catalyst, EtOH, 60 °C, 2 hours), tolerated a wide substrate scope, worked smoothly on a 4 g scale, and gave the pyrroles in up to 86% yield. The pyrroles were also converted into functional intermediates to demonstrate their versatility. NMR and LC–MS experiments supported a proposed cascade reaction mechanism. The approach demonstrates a robust upcycling process for the challenging synthesis of highly functionalized N-heterocyclic compounds from unprotected carbohydrates.

Original language	English
Article number	e202200367
Journal	Asian Journal of Organic Chemistry
Volume	11
Issue number	9
DOIs	https://doi.org/10.1002/ajoc.202200367
Publication status	Published - Sept 2022
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2022 Wiley-VCH GmbH.

ASJC Scopus Subject Areas

Organic Chemistry

Keywords

carbohydrates
cascade reactions
pyrroles
three-component reactions

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title = "Acetic Acid-Catalyzed Selective Synthesis of N-Substituted 2-Amino-3-Cyanopyrroles via a Three-Component Reaction Between Carbohydrates, Primary Amines and Malononitrile",

abstract = "Direct conversion of unprotected carbohydrates to N-heterocycles is challenging and highly desirable. A simple three-component synthesis of N-substituted 2-amino-3-cyanopyrrole key framework is developed from the reaction between unprotected carbohydrates, malononitrile, and primary amines. The reaction proceeded under mild reaction conditions (AcOH catalyst, EtOH, 60 °C, 2 hours), tolerated a wide substrate scope, worked smoothly on a 4 g scale, and gave the pyrroles in up to 86% yield. The pyrroles were also converted into functional intermediates to demonstrate their versatility. NMR and LC–MS experiments supported a proposed cascade reaction mechanism. The approach demonstrates a robust upcycling process for the challenging synthesis of highly functionalized N-heterocyclic compounds from unprotected carbohydrates.",

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AU - Moussa, Ziad

AU - Judeh, Zaher M.A.

PY - 2022/9

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N2 - Direct conversion of unprotected carbohydrates to N-heterocycles is challenging and highly desirable. A simple three-component synthesis of N-substituted 2-amino-3-cyanopyrrole key framework is developed from the reaction between unprotected carbohydrates, malononitrile, and primary amines. The reaction proceeded under mild reaction conditions (AcOH catalyst, EtOH, 60 °C, 2 hours), tolerated a wide substrate scope, worked smoothly on a 4 g scale, and gave the pyrroles in up to 86% yield. The pyrroles were also converted into functional intermediates to demonstrate their versatility. NMR and LC–MS experiments supported a proposed cascade reaction mechanism. The approach demonstrates a robust upcycling process for the challenging synthesis of highly functionalized N-heterocyclic compounds from unprotected carbohydrates.

AB - Direct conversion of unprotected carbohydrates to N-heterocycles is challenging and highly desirable. A simple three-component synthesis of N-substituted 2-amino-3-cyanopyrrole key framework is developed from the reaction between unprotected carbohydrates, malononitrile, and primary amines. The reaction proceeded under mild reaction conditions (AcOH catalyst, EtOH, 60 °C, 2 hours), tolerated a wide substrate scope, worked smoothly on a 4 g scale, and gave the pyrroles in up to 86% yield. The pyrroles were also converted into functional intermediates to demonstrate their versatility. NMR and LC–MS experiments supported a proposed cascade reaction mechanism. The approach demonstrates a robust upcycling process for the challenging synthesis of highly functionalized N-heterocyclic compounds from unprotected carbohydrates.

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Acetic Acid-Catalyzed Selective Synthesis of N-Substituted 2-Amino-3-Cyanopyrroles via a Three-Component Reaction Between Carbohydrates, Primary Amines and Malononitrile

Abstract

Bibliographical note

ASJC Scopus Subject Areas

Keywords

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