N-Isocyanates, N-Isothiocyanates and Their Masked/Blocked Derivatives: Synthesis and Reactivity

Vincent-Rocan, Jean-François; Beauchemin, André M.

doi:10.1055/s-0036-1588066

Cited by 24 publications

(1 citation statement)

References 60 publications

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“…Unlike alkyl(aryl-, hetaryl-) isothiocyanates and their derivatives, acyl isothiocyanates are a less studied class of organic compounds [1][2][3][4][5][6][7][8]. Methods for the synthesis of acyl isothiocyanates are known and based on the interaction of acyl chlorides with isothiocyanic acid salts [1,2,6]. Other methods of synthesis are described as well.…”

Section: Introductionmentioning

confidence: 99%

Substituted acyl thioureas and acyl thiosemicarbazides: synthesis and biological activity (minireview)

Kholodniak

Коваленко

2022

SR: PS

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Acyl isothiocyanates and their functional derivatives (acyl thioureas and acyl thiosemicarbazides) are an important group of organic compounds that are widely used in the synthesis of heterocycles and in chemistry as catalysts, ligands, colorimetric hemosensors, etc. In recent years, there has been an increased interest towards this class of compounds as promising biologically active compounds, especially since the latest advances in medicinal chemistry for them are not sufficiently studied. The aim. To summarize and systematize information for the last 10 years on methods of synthesis and biological activity of substituted acyl thioureas and acyl thiosemicarbazides. Materials and methods. Web-tools for finding scientific information (Reaxys, Scopus, Google Scholar, ScienceResearch, SciFinder, Web of Science, etc.). Results and discussion. Literature sources related to the methods of synthesis of substituted acyl thioureas and acyl thiosemicarbazides were systematized and analyzed. The main approaches for the formation of these compounds are revealed: stepwise formation from carboxylic acids, through acyl chlorides and acyl isothiocyanates followed by nucleophilic addition of amines or hydrazides of carboxylic acids ("one-pot synthesis"), nucleophilic addition of amines or hydrazides of carboxylic acids directly to acyl isothiocyanates and parallel microwave synthesis using acyl isothiocyanates and amines as reagents. The possibility of their use as ligands for the formation of complex compounds with transition metal ions was discussed. In the review biological activity of these structures, namely antimicrobial, fungicidal, antitumor, antiviral, antifungal and other activities was detailazed. Conclusions. The basic approaches to the synthesis of substituted acylthuoureas and acyl thiosemicarbazides which include the application of carboxylic acids, their derivatives (acyl halides and isothiocyanates) and N-nucleophiles as initial compounds were discussed. It was shown that aforementioned class of the compounds reveals the versatile biological activity and are promising for further structural modification aimed to the search of novel drugs

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Section: Introductionmentioning

confidence: 99%

Substituted acyl thioureas and acyl thiosemicarbazides: synthesis and biological activity (minireview)

Kholodniak

Коваленко

2022

SR: PS

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Oxygen‐Substituted Isocyanates: Blocked (Masked) Isocyanates Enable Controlled Reactivity

2017

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Oxygen-substituted isocyanates (O-isocyanates) are rare isocyanates with a reported propensity to trimerize, a side-reaction that severely limited their use in synthesis. Herein, the development of blocked (masked) O-isocyanate precursors that form this reactive intermediate in situ provide controlled reactivity, allowing the first examples of cascade reactions involving Oisocyanates. Complex hydroxylamine-derived hydantoins and dihydrouracil compounds can be rapidly assembled from a-and b-amino esters, illustrating the convenience of masked O-isocyanates as hydroxylamine derived building blocks. Evidence for the intermediacy of an O-isocyanate intermediate is provided.

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Liquid‐Phase Synthesis of Boron Isocyanates: Precursors to Boron Nanoparticles

Zhu¹,

Hosmane

2018

Angewandte Chemie

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The practical application of boron isocyanates has been hindered by their extremely high sensitivity and reactivity toward air and moisture. A convenient synthetic method in a suitable liquid media is reported for practical utilization of boron isocyanates. According to NMR studies, the in situ generated boron isocyanates can be stored for at least one month under an inert atmosphere at −20 °C without noticeable decomposition. The boron tri(isocyanate) (B(NCO)3) was converted into boron nanoparticles by reduction with hydrogen under mild reaction conditions.

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N-Isocyanates, N-Isothiocyanates and Their Masked/Blocked Derivatives: Synthesis and Reactivity

Cited by 24 publications

References 60 publications

Substituted acyl thioureas and acyl thiosemicarbazides: synthesis and biological activity (minireview)

Substituted acyl thioureas and acyl thiosemicarbazides: synthesis and biological activity (minireview)

Oxygen‐Substituted Isocyanates: Blocked (Masked) Isocyanates Enable Controlled Reactivity

Liquid‐Phase Synthesis of Boron Isocyanates: Precursors to Boron Nanoparticles

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