Microwave-Mediated, Catalyst-Free Synthesis of 1,2,4-Triazolo[1,5-a]pyridines from Enaminonitriles

Lee, Kwanghee; Kim, Young-Ah; Jung, Chanhyun; Sim, Jaeuk; Rajasekar, Shanmugam; Kwak, Jae-Hwan; Viji, Mayavan; Jung, Jae-Kyung

doi:10.3390/molecules29040894

Cited by 3 publications

References 59 publications

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Formal [4 + 2] combined ionic and radical approach of vinylogous enaminonitriles to access highly substituted sulfonyl pyridazines

Jung,

Lee,

Rajasekar

et al. 2024

Commun Chem

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Pyridazine derivatives hold significant interest due to their broad applications in pharmaceuticals and materials science, where they serve as valuable scaffolds for bioactive compounds and functional materials. Here, we report a formal [4 + 2] reaction for the synthesis of 5’-sulfonyl-4’-aryl-3-cyano substituted pyridazine compounds from the reaction between vinylogous enaminonitriles and sulfonyl hydrazides. The key features of our pyridazine synthesis include the transamidation of vinylogous enaminonitriles with sulfonyl hydrazide, radical sulfonylation of the resulting intermediate, and subsequent 6-endo-trig radical cyclization. This reaction proceeds smoothly to deliver a series of pyridazine derivatives in good to high yields. We also found that the sulfonyl group of the synthesized pyridazines can be transformed into C-, O-, or N-containing functional groups. A gram-scale experiment and a diverse transformation of synthesized pyridazines were also performed to validate the practicality of our developed process. In the synthesis of sulfonyl-substituted pyridazines, a 6-endo-trig cyclization via a radical pathway is both kinetically and thermodynamically favored over the cyclization via an ionic pathway, as supported by DFT calculations.

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Formal [4 + 2] combined ionic and radical approach of vinylogous enaminonitriles to access highly substituted sulfonyl pyridazines

Jung,

Lee,

Rajasekar

et al. 2024

Commun Chem

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Formal [4+2] combined ionic and radical approach of vinylogus enaminonitriles for highly substituted sulfonyl pyridazines

Jung,

Lee

et al. 2024

Preprint

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A formal [4 + 2] reaction for the synthesis of 5’-sulfonyl-4’-aryl-3-cyano substituted pyridazine compounds from the reaction between vinylogus enaminonitrile and sulfonyl hydrazides is reported. The key features of our pyridazine synthesis include the transamidation of vinylogus enaminonitrile with sulfonyl hydrazide, radical sulfonylation of the resulting intermediate, and subsequent 6-endo-trig radical cyclization. This reaction proceeds smoothly to deliver a series of pyridazine derivatives in good to high yields. We also found that the sulfonyl group of the synthesized pyridazines can be transformed into C-, O-, or N-containing functional groups. A gram scale experiment and a diverse transformation of synthesized pyridazines were also performed to validate the practicability of our developed process. In the synthesis of sulfonyl substituted pyridazines, a 6-endo-trig cyclization via a radical pathway is both kinetically and thermodynamically favored over the cyclization via an ionic pathway, as supported by DFT calculations.

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Recent Developments Towards the Synthesis of Triazole Derivatives: A Review

Ameziane El Hassani,

Rouzi,

Ameziane El Hassani

et al. 2024

Organics

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The triazole scaffold is a crucial component of heterocyclic chemistry, serving as a basic building block in organic synthesis, materials science, and medicinal chemistry. Triazole is a five-membered ring composed of three nitrogen atoms and two carbon atoms, and it exists in two isomeric forms: 1,2,3-triazole and 1,2,4-triazole. Compounds featuring the triazole ring are important heterocycles known for their diverse biological activities, including antimicrobial, antiproliferative, antimalarial, anticonvulsant, anti-inflammatory, antineoplastic, antiviral, analgesic, and anticancer properties. As a result, triazole derivatives have attracted significant attention from researchers. This review aims to provide a thorough overview of the published studies on the synthesis of triazole derivatives, highlighting various methods for obtaining the triazole moiety. These methods include classical approaches as well as microwave and ultrasound-assisted techniques.

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Microwave-Mediated, Catalyst-Free Synthesis of 1,2,4-Triazolo[1,5-a]pyridines from Enaminonitriles

Cited by 3 publications

References 59 publications

Formal [4 + 2] combined ionic and radical approach of vinylogous enaminonitriles to access highly substituted sulfonyl pyridazines

Formal [4 + 2] combined ionic and radical approach of vinylogous enaminonitriles to access highly substituted sulfonyl pyridazines

Formal [4+2] combined ionic and radical approach of vinylogus enaminonitriles for highly substituted sulfonyl pyridazines

Recent Developments Towards the Synthesis of Triazole Derivatives: A Review

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