Diorganyl Dichalcogenides and Copper/Iron Salts: Versatile Cyclization System To Achieve Carbo- and Heterocycles from Alkynes

Jurinic, Carla K.; Belladona, Andrei L.; Schumacher, Ricardo F.; Godoi, Benhur

doi:10.1055/a-1463-4098

Cited by 10 publications

(2 citation statements)

References 60 publications

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“…Then the reaction of thiocyanate with thiocyanogen chloride provides (SCN) 2 , which further reacts with the oxidative PhICl 2 to give thiocyanogen chloride ( Tao et al, 2021 ). Next, electrophilic addition between the reactive thiocyanogen chloride with substrate 1a gave rise to intermediate B ( Xing et al, 2019a ; An et al, 2020 ; Hellwig et al, 2020 ; Lynch and Scanlan, 2020 ; Sun et al, 2020 ; Jurinic et al, 2021 ; Slivka and Onysko, 2021 ). Due to the presence of the adjacent electron-withdrawing methoxycarbonyl group which makes the C (sp 2 ) connecting with the Ph substituent more electron-deficient, a favored intramolecular 6-exo cyclization occurred in intermediate B , leading to formation of the cyclic intermediate C .…”

Section: Resultsmentioning

confidence: 99%

PhICl2-Mediated Regioselective and Electrophilic Oxythio/Selenocyanation of o-(1-Alkynyl)benzoates: Access to Biologically Active S/SeCN-Containing Isocoumarins

et al. 2022

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The application of PhICl2/NH4SCN and PhICl2/KSeCN reagent systems to the synthesis of the biologically active S/SeCN-containing isocoumarins via a process involving thio/selenocyanation, enabled by thio/selenocyanogen chloride generated in situ, followed with an intramolecular lactonization was realized. Gram-scale synthesis, further derivatization to access C4 thio/selenocyanated Xyridin A and anti-tumor activities of the obtained products highlight the potential use of this method.

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Section: Resultsmentioning

confidence: 99%

PhICl2-Mediated Regioselective and Electrophilic Oxythio/Selenocyanation of o-(1-Alkynyl)benzoates: Access to Biologically Active S/SeCN-Containing Isocoumarins

et al. 2022

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“…In sum, the interesting properties presented by organochalcogen compounds offer wide research opportunities, considering the design of small molecules presenting pharmacological activity and toxicological safety to new materials. The heterocyclization of alkenes and alkynes by using halogen- [30][31][32][33] or chalcogenbased electrophiles [34,35], or under photocatalysis and electrochemistry conditions involving radical intermediates, has been well documented [36,37]. Traditionally, these cyclization reactions are conducted for alkenes and alkynes neighboring nucleophilic substituents at an appropriate position, which can limit the applicability as most of them are not readily available starting materials, owing to its obtaining of a transition-metal catalysis in at least one reaction step.…”

Section: Introductionmentioning

confidence: 99%

Recent Approaches in Transition Metal-Catalyzed Chalcogenative Heteroannulation of Alkenes and Alkynes

Gutterres,

Anjos,

Santos

et al. 2023

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Organochalcogen-bearing heterocycles are important scaffolds in compounds under the spotlight of scientific interest in optoelectronic fields and for biological applications. The use of transition metals has been a versatile and reliable way to carry out the synthesis of these molecules efficiently, delivering products in high yields and with a wide functional diversity. In the last 10 years, many classes of heterocycles have been synthesized under the cyclization reaction of acyclic alkenes and alkynes with the incorporation of a chalcogen atom on its structure. Transition metal catalysts including Cu, Co, Pd, Ni, In, Ag, and Fe salts have been used in the development of new methodologies, the expansion of substrate scope, and mechanistic studies. This review provides an overview of these recent approaches with the aim of being a useful resource for interested researchers in this area.

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Solvent‐Regulated Electrochemical Selenylation and Deuteration of Alkynyl Aryl Ketones: Chemoselective Synthesis of 3‐Selenylated Chromones and Deutero‐Selenylated Chalcones

et al. 2023

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We have developed an electrochemical reaction for the synthesis of 3‐selenylchromones and deutero‐selenylated chalcones of alkynyl aryl ketones. This method is free from metal catalysts and oxidants, and is regulated by solvents. The reaction conditions are mild, and a wide range of substrates can be employed to produce selenylated chromones and deutero‐selenylated chalcones, displaying potential anti‐inflammatory activities. Furthermore, we have demonstrated the applicability of this approach for the late‐stage deutero‐selenylation of the drug molecule, metochalcone.

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Diorganyl Dichalcogenides and Copper/Iron Salts: Versatile Cyclization System To Achieve Carbo- and Heterocycles from Alkynes

Cited by 10 publications

References 60 publications

PhICl2-Mediated Regioselective and Electrophilic Oxythio/Selenocyanation of o-(1-Alkynyl)benzoates: Access to Biologically Active S/SeCN-Containing Isocoumarins

PhICl2-Mediated Regioselective and Electrophilic Oxythio/Selenocyanation of o-(1-Alkynyl)benzoates: Access to Biologically Active S/SeCN-Containing Isocoumarins

Recent Approaches in Transition Metal-Catalyzed Chalcogenative Heteroannulation of Alkenes and Alkynes

Solvent‐Regulated Electrochemical Selenylation and Deuteration of Alkynyl Aryl Ketones: Chemoselective Synthesis of 3‐Selenylated Chromones and Deutero‐Selenylated Chalcones

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