140140-01-8Relevant academic research and scientific papers
Multicomponent, solvent-free synthesis of β-aryl-β-mercapto ketones using zirconium chloride as a catalyst
Kumar, Atul,Akanksha
, p. 8730 - 8734 (2007)
Zirconium chloride efficiently catalyzes the one-pot, three-component reaction of an aryl aldehyde, cyclic or acyclic enolizable ketones, and thiols under solvent-free conditions at room temperature to afford the corresponding β-aryl-β-mercaptoketones via aldol-Michael addition reactions. This methodology affords a large number of β-aryl-β-mercapto ketone derivatives in high yields and in short reaction times.
Catalyst-free chemoselective α-sulfenylation/β-thiolation for α,β-unsaturated carbonyl compounds
Huang, Xi,Li, Juan,Li, Xiang,Wang, Jiayi,Peng, Yanqing,Song, Gonghua
, p. 26419 - 26424 (2019/09/13)
A novel, efficient, catalyst-free and product-controllable strategy has been developed for the chemoselective α-sulfenylation/β-thiolation of α,β-unsaturated carbonyl compounds. An aromatic sulfur group could be chemoselectively introduced at α-or β-posit
Novel and versatile methodology for synthesis of β-aryl-β- mercapto ketone derivatives as potential urease inhibitors
Ahari-Mostafavi, Mohammad Mahdi,Sharifi, Ali,Mirzaei, Mojtaba,Amanlou, Massoud
, p. 1113 - 1119 (2014/08/05)
The objective was to obtain new scaffold of compounds possessing anti-urease activity. For this new and simple method for the synthesis of β-aryl-β-mercapto ketone derivatives based on Michael addition of thiophenol to chalcones in an ionic liquid as a so
Two expedient 'one-pot' methods for synthesis of β-aryl-β- mercaptoketones over anhydrous potassium carbonate or amberlyst-15 catalyst
Guha, Chayan,Mondal, Rina,Pal, Rammohan,Mallik, Asok K.
, p. 1463 - 1470 (2014/04/03)
Two expedient one-pot methods have been developed for synthesis of β-aryl-β-mercaptoketones using acetophenones, benzaldehydes and thiols as starting materials. The methods involve microwave irradiation (5min) of 1:1 mixtures of acetophenones and benzaldehydes over neutral alumina supported anhydrous potassium carbonate or amberlyst-15 in the first step, and that is followed by addition of thiol to the resulting material and keeping at room temperature for 1.5 h. Indian Academy of Sciences.
Ionic liquid/PPh3 promoted cleavage of diphenyl disulfide and diselenide: A straight-forward metal-free one-pot route to the synthesis of unsymmetrical sulfides and selenides
Banerjee, Subhash,Adak, Laksmikanta,Ranu, Brindaban C.
supporting information; experimental part, p. 2149 - 2152 (2012/05/05)
A metal-free cleavage of diphenyl disulfide and diphenyl diselenide has been achieved using ionic liquid/triphenyl phosphine (PPh3) and a convenient protocol for the one-pot synthesis of unsymmetrical sulfides and selenides by condensing 'in situ' generated thiolate or selenate anion with alkyl halides has been developed. In addition, 1,4-conjugate addition of the generated thiolate anions to activated alkenes has also been demonstrated. The ionic liquid, 1-methyl-3-pentyl imidazolium bromide, [pmIm]Br plays a crucial role in promoting the course of the reactions and shows superior activity and selectivity compared to other solvents. The [pmIm]Br has been reused for at least five times without appreciable loss of activity.
A facile and highly diastereoselective synthesis of cis-2,4- diarylthiochromans
Guha, Chayan,Pal, Rammohan,Mallik, Asok K.
, p. 85 - 94,10 (2020/09/02)
A simple methodology has been developed for diastereoselective synthesis of cis-2,4-diarylthiochromans in three steps starting from chalcones. The methodology involves reduction of the conjugate addition product of thiophenol to chalcones followed by Ambe
Design and synthesis of 1,3-biarylsulfanyl derivatives as new anti-breast cancer agents
Kumar, Atul,Tripathi, Vishwa Deepak,Kumar, Promod,Gupta, Lalit Prakash,Akanksha,Trivedi, Ritu,Bid, Hemant,Nayak,Siddiqui, Jawed A.,Chakravarti, Bandana,Saxena, Ruchi,Dwivedi, Anila,Siddiquee,Siddiqui,Konwar, Rituraj,Chattopadhyay, Naibedya
experimental part, p. 5409 - 5419 (2011/10/31)
A new series of 1,3-biarylsulfanyl derivatives (homodibenzyl core motif) have been designed and synthesized as new estrogen receptor ligands by chopping benzothiophene core of raloxifene to engender seco-raloxifene scaffold. All the synthesized compounds were screened for anti-proliferative, anti-osteoporotic, and anti-implantation activity. Compounds (35, 36) having basic amino anti-estrogenic side chain were exhibiting potential anti-proliferative activity in MCF-7, MDA-MB-231 and ishikawa cell lines. Some of the synthesized compounds having homodibenzyl motif (5, 8, 10) have shown moderate anti-osteoporotic activity.
Animal bone meal (ABM): A novel natural catalyst for thia-michael addition
Riadi, Yassine,Mamouni, Rachid,Abrouki, Younes,Haddad, Mohammadine El,Saffaj, Nabil,Antri, Said El,Routier, Sylvain,Guillaumet, Gerald,Lazar, Said
experimental part, p. 269 - 271 (2011/07/08)
The preparation and use of Animal Bone Meal (ABM) as natural catalyst is described for C-S bond formation by thia-Michael addition. This new natural heterogeneous method led to β-sulfinyl adducts in very high yields after only a few minutes. Influence of
Natural phosphate modified with lithium nitrate: A new efficient catalyst for the construction of carbon-carbon, carbon-sulfur, and carbon-nitrogen bonds
Zahouily, Mohamed,Mounir, Bahija,Cherki, Hind,Bahlaouan, Bouchaib,Rayadh, Ahmed,Sebti, Said
, p. 1203 - 1217 (2008/02/02)
The addition of small amounts of lithium nitrate to natural phosphate followed by calcination gives a new catalyst Li/NP (weight ratio LiNO3/NP = 1/15). This material showed catalytic activity in the Michael addition of amines, mercaptans, and active methylene compounds to chalcone derivatives with high yields under mild reaction conditions. Li/NP is used as the catalyst for a facile synthesis of -amino acids, -sulfur acids, and 4 H-chromenes under heterogeneous conditions. The usual, undesirable byproducts from the Michael condensation such as 1,2-addition, bis-addition, and polymerization compounds are not observed with this method. The work-up procedure is simplified by simple filtration with the use of Li/NP.
Amino acid catalyzed thio-Michael addition reactions
Kumar, Atul,Akanksha
, p. 11086 - 11092 (2008/02/12)
Using amino acid as a catalyst, an inexpensive, nontoxic, environmentally friendly, metal-free reaction procedure for C-S bond formation via thio-Michael addition reaction has been developed. The thio-Michael addition products were obtained in excellent yields under mild and neutral conditions. This metal-free catalytic protocol was found to be a good alternative to the existing metal catalyst methodology for the thio-Michael addition reaction.
