Synthesis of 3,5-Disubstituted Isoxazoles and Isoxazolines in Deep Eutectic Solvents

Pérez, Juana M.; Ramón, Diego J.

doi:10.1021/acssuschemeng.5b00689

Cited by 62 publications

(22 citation statements)

References 81 publications

(128 reference statements)

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“…[140] The nucleophilic mixture allowed the initial condensation, followed by chlorination to give the corresponding imidoyl chloride. Surprisingly, the DES did not react with the high electrophilic intermediates.…”

Section: Miscellaneousmentioning

confidence: 99%

Deep Eutectic Solvents: The Organic Reaction Medium of the Century

et al. 2016

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This microreview summarizes the use of deep eutectic solvents (DES) and related melts in Organic Synthesis. This type of solvents combine the great advantages of other proposed environmentally benign alternative solvents, such as low toxicity, high availability, low inflammability, high recyclability, low volatility and low price, avoiding many disadvantages of these neoteric media. The fact that many of the components of the mixture come directly from Nature assures their biodegradability and renewability. The classification and distribution of the reactions in different sections along this microreview, as well as the emphasis paid to their scope, easily allows a general reader to understand the actual state of art, and the great opportunities opened, not only for academic proposes but also for industry.

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Section: Miscellaneousmentioning

confidence: 99%

Deep Eutectic Solvents: The Organic Reaction Medium of the Century

et al. 2016

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“…21 In particular, DESs have been applied to several cycloaddition reactions such as Lewis acid-catalysed Diels-Alder reactions, 22 formation of pyrrolidines from the corresponding azomethine ylides, 23 and isoxazoles from nitrile oxides. 24 From azides, either tetrazoles 25 or triazoles 26 have been prepared in DES. In many of these examples the beneficial effect of DES as reaction media was rationalised either through the Lewis acidity of one of the components, or the formation of hydrogen bonds between either of the components and the cycloaddition partners.…”

Section: Introductionmentioning

confidence: 99%

Thermal azide–alkene cycloaddition reactions: straightforward multi-gram access to Δ²-1,2,3-triazolines in deep eutectic solvents

et al. 2018

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“…2) from aldehydes and alkynes using choline chloride (ChCl): urea as a biorenewable deep eutectic solvent (DES). DES are an environmentally benign alternative to hazardous (Majewsky et al 2014) 2 Sulfisoxazole Antibacterial (Genc et al 2008) 3 Acetyl sulfisoxazole Antibacterial (Cronin et al 2002) 4 Cycloserine Antitubercular, Antileprotic (Desjardins et al 2016) 5 Acivicin Antitumour, Antileishmania (Conti et al 2003) 6 Broxaterol Bronchodilatory agent (Giustina et al 1995) 7 Oxacillin Antibacterial (Lainson et al 2017) (Zhao et al 2017a) 10 Zonisamide Anticonvulsant (Buoli et al 2017), Antiobesity (Shin et al 2014) 11 Risperidone Antpsychotic (Schoretsanitis et al 2017) 12 Valdecoxib COX-2 inhibitor (Bartzatt 2014) 13 Danazol Androgenic (McKinney et al 2013) (organic) solvents that can be recycled (Pérez and Ramón 2015). Jadhav et al synthesized highly pure 3,5-disubstituted isoxazoles (Route d, Fig.…”

Section: Synthetic Methodsmentioning

confidence: 99%

The synthetic and therapeutic expedition of isoxazole and its analogs

2018

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Isoxazole, constituting an important family of five-membered heterocycles with one oxygen atom and one nitrogen atom at adjacent positions is of immense importance because of its wide spectrum of biological activities and therapeutic potential. It is, therefore, of prime importance that the development of new synthetic strategies and designing of new isoxazole derivatives should be based on the most recent knowledge emerging from the latest research. This review is an endeavor to highlight the progress in the chemistry and biological activity of isoxazole derivatives which could provide a low-height flying bird's eye view of isoxazole derivatives to the medicinal chemists for the development of clinically viable drugs using this information.

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Synthesis of 3,5-Disubstituted Isoxazoles and Isoxazolines in Deep Eutectic Solvents

Cited by 62 publications

References 81 publications

Deep Eutectic Solvents: The Organic Reaction Medium of the Century

Deep Eutectic Solvents: The Organic Reaction Medium of the Century

Thermal azide–alkene cycloaddition reactions: straightforward multi-gram access to Δ²-1,2,3-triazolines in deep eutectic solvents

The synthetic and therapeutic expedition of isoxazole and its analogs

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Synthesis of 3,5-Disubstituted Isoxazoles and Isoxazolines in Deep Eutectic Solvents

Cited by 62 publications

References 81 publications

Deep Eutectic Solvents: The Organic Reaction Medium of the Century

Deep Eutectic Solvents: The Organic Reaction Medium of the Century

Thermal azide–alkene cycloaddition reactions: straightforward multi-gram access to Δ2-1,2,3-triazolines in deep eutectic solvents

The synthetic and therapeutic expedition of isoxazole and its analogs

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Thermal azide–alkene cycloaddition reactions: straightforward multi-gram access to Δ²-1,2,3-triazolines in deep eutectic solvents