A Facile and Catalyst-Free Microwave-Promoted Multicomponent Reaction for the Synthesis of Functionalised 1,4-Dihydropyridines With Superb Selectivity and Yields

Kerru, Nagaraju; Maddila, Suresh; Jonnalagadda, Sreekantha B.

doi:10.3389/fchem.2021.638832

Cited by 22 publications

(7 citation statements)

References 37 publications

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“…An efficient MCR for the synthesis of functionalized 1,2,4‐triazole‐tagged 1,4‐dihydropyridine derivatives 507 was reported by Jonnalagadda et al (Scheme 96). [115] This method involves microwave irradiation (150 W) of a mixture of 1 H ‐1,2,4‐triazol‐3‐amine, aldehydes 1 , diethyl acetylenedicarboxylate 2 and active methylene compounds in a water for the synthesis of pyridine derivatives 507 with high selectivity and excellent yields (94–97 %). This green methodology furnishes the desired 1,4‐dihydropyridines 507 within a very short time (<12 min) and no column chromatography is required for purification of the product.…”

Section: Six‐membered Heterocyclic Compoundsmentioning

confidence: 99%

Transition‐Metal‐Free Synthesis of N‐Heterocyclic Compounds via Multi‐Component Reactions

et al. 2023

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Multicomponent reactions (MCRs) have emerged as powerful tools in synthetic chemistry for the efficient synthesis of diverse molecular scaffolds, particularly nitrogen‐containing heterocycles. Despite their numerous advantages, the use of transition metal catalysts or additives in MCRs can present limitations due to cost, toxicity, and environmental concerns. In recent years, there has been a growing interest in transition metal‐free MCRs for the synthesis of N‐heterocyclic compounds. This review provides a comprehensive and concise overview of the recent advancements in transition metal‐free MCRs for the synthesis of valuable N‐heterocycles over the past five years. The review is systematically organized, categorizing the discussed MCRs based on the size of the heterocyclic ring and the number of nitrogen atoms. Only MCRs that result in the formation of heterocyclic rings containing at least one nitrogen atom are included, while the derivatization of N‐heterocycles using transition metal‐free MCRs falls outside the scope of this review. By highlighting the recent developments in this field, this review aims to showcase the potential and significance of transition metal‐free MCRs as sustainable and efficient strategies for accessing N‐heterocyclic compounds. The elimination of transition metals not only simplifies the reaction conditions but also contributes to greener and more environmentally friendly synthetic approaches. This review serves as a valuable resource for researchers interested in the design and application of transition metal‐free MCRs in the synthesis of nitrogen‐containing heterocycles.

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Section: Six‐membered Heterocyclic Compoundsmentioning

confidence: 99%

Transition‐Metal‐Free Synthesis of N‐Heterocyclic Compounds via Multi‐Component Reactions

et al. 2023

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“…Excellent yields (94–97%), functional group tolerance, and selectivity were all achieved throughout the reaction. 32 Similarly, the condensation of benzaldehyde 16a, ethyl acetoacetate 16b, and ammonia 16c in the presence of aqueous ethanol at room temperature was described as a visible light-mediated technique for the production of poly substituted 1,4-DHPs, 16. When compared to thermal procedures, this approach has the benefit of minimizing byproduct generation and having quicker reaction times ( Scheme 17 ).…”

Section: Synthetic Advancesmentioning

confidence: 99%

1,4-Dihydropyridine: synthetic advances, medicinal and insecticidal properties

Parthiban

Makam

2022

RSC Adv.

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“…Isocyanide-based MCRs are sometimes performed in the absence of catalysts [ 62 ], but their catalytic versions proved to have many advantages. Some catalyst-free MCRs have been induced by alternative conditions, such as light-promoted reactions [ 63 ], microwave irradiation [ 64 ] and a few others [ 65 , 66 , 67 , 68 ], but catalysis effects rather than these conditions are of interest in the current article. Some MCRs have been labeled “catalyst-free”, but they have also been elegantly questioned [ 69 ], whereas other so-called “catalyst-free” MCRs could not be reproduced at all.…”

Section: Catalyst-free Mcrs and Reasons To Use Catalystsmentioning

confidence: 99%

Catalytic Approaches to Multicomponent Reactions: A Critical Review and Perspectives on the Roles of Catalysis

2021

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In this review, we comprehensively describe catalyzed multicomponent reactions (MCRs) and the multiple roles of catalysis combined with key parameters to perform these transformations. Besides improving yields and shortening reaction times, catalysis is vital to achieving greener protocols and to furthering the MCR field of research. Considering that MCRs typically have two or more possible reaction pathways to explain the transformation, catalysis is essential for selecting a reaction route and avoiding byproduct formation. Key parameters, such as temperature, catalyst amounts and reagent quantities, were analyzed. Solvent effects, which are likely the most neglected topic in MCRs, as well as their combined roles with catalysis, are critically discussed. Stereocontrolled MCRs, rarely observed without the presence of a catalytic system, are also presented and discussed in this review. Perspectives on the use of catalytic systems for improved and greener MCRs are finally presented.

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A Facile and Catalyst-Free Microwave-Promoted Multicomponent Reaction for the Synthesis of Functionalised 1,4-Dihydropyridines With Superb Selectivity and Yields

Cited by 22 publications

References 37 publications

Transition‐Metal‐Free Synthesis of N‐Heterocyclic Compounds via Multi‐Component Reactions

Transition‐Metal‐Free Synthesis of N‐Heterocyclic Compounds via Multi‐Component Reactions

1,4-Dihydropyridine: synthetic advances, medicinal and insecticidal properties

Catalytic Approaches to Multicomponent Reactions: A Critical Review and Perspectives on the Roles of Catalysis

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