- Iodine mediated direct coupling of benzylic alcohols with dithiocarbamate anions: An easy access of S-benzyl dithiocarbamate esters under neat reaction condition
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An efficient, metal and solvent free synthesis of S-benzylic dithiocarbamate esters has been demonstrated via the iodine mediated direct C-S coupling of benzylic alcohols with dithiocarbamate anions generated in-situ by the reactions of amines and carbon disulphide. All the reactions were very fast (15–30 min) and performed under open air atmosphere. Cyclic and acyclic secondary amines, primary amine, aromatic amine actively participated in the one-pot coupling reactions with different benzylic alcohols. Non benzylic alcohols offer the synthesis of O-thiocarbamate compounds under the identical reaction condition.
- Dutta, Soumya,Saha, Amit
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- Efficient, straightforward, catalyst-free synthesis of medicinally important S-alkyl/benzyl dithiocarbamates under green conditions
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Green synthesis of some novel dithiocarbamate derivatives substituted by aliphatic and aromatic groups as potentially interesting, medicinally important organic compounds via efficient one-pot, catalyst-free reaction is described. In this reaction, dithiocarbamate derivatives are obtained from condensation reaction between primary or secondary amines, carbon disulfide, and alkyl or benzyl halides in one pot and ethanol–aqueous medium. Among aliphatic and aromatic amines, the results generally show that reaction of aliphatic amines with alkyl or benzyl halides led to desired products in highest yields. Also, among aliphatic amines, those which reacted with benzyl halides showed better yields than those that reacted with alkyl halides. Use of environmentally benign solvents is one of the advantages of this procedure. Also, obtaining products in good yield via catalyst-free reaction using a facile, inexpensive, and practical approach can be considered other advantages of this procedure. Target products are very important compounds, because their analogs have been applied in pharmaceutical, chemical, and rubber industries.
- Asadipour, Ali,Shams, Zeynab,Eskandari, Khalil,Moshafi, Mohammad-Hassan,Faghih-Mirzaei, Ehsan,Pourshojaei, Yaghoub
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p. 1295 - 1304
(2017/10/30)
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- Cyclic ammonium salts of dithiocarbamic acid: stable alternative reagents for the synthesis of S-alkyl carbodithioates from organyl thiocyanates in water
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ABSTRACT: Carbodithioate esters are important functional organosulfur compounds widely used in diverse fields such as pharmaceuticals, agrochemicals and material sciences. Common preparative methods include reaction of alkyl halides, carbon disulfide and bases under both metal-free and metal-catalyzed conditions. However, organyl thiocyanates have not been previously explored, possibly because of their conversion to organyl disulfides under basic conditions. Here, we report an efficient and practical method for the preparation of libraries of carbodithioate esters from organyl thiocyanates by reacting with cyclic amine-based dithiocarbamic acid salts in water. The protocol is found to be applicable in general to various thiocyanates such as benzyl/aroyl methyl/cinnamyl and so on. Other notable features include no by-products such as disulfides, metal- and alkali-free, aqueous conditions, and finally easy and near-quantitative formation of cyclic amine-based dithiocarbamic acid salt as a stable alternative reagent.
- Biswas, Kinkar,Ghosh, Sujit,Ghosh, Pranab,Basu, Basudeb
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p. 361 - 376
(2016/07/23)
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