15436-06-3Relevant articles and documents
Nucleophilic Substitutions of Unactivated Vinyl Halides with Alkanethiolate Anions in Hexamethylphophoramide
Tiecco, Marcello,Testaferri, Lorenzo,Tingoli, Marco,Chianelli, Donatella,Montanucci, Manuela
, p. 4795 - 4800 (1983)
The reactions of unactivated vinyl halides with the sodium salts of alkanethiols in HMPA gave vinyl alkyl sufides in high yields.These reactions occur with complete retention of configuration.With di-, tri-, and tetrachloroethylenes all the chlorine atoms are substituted by alkylthio groups.By treatment with alkanethiolates the vinyl sulfides are dealkylated to give the sodium salts of the ene thiols.By reaction with sodium all the alkylthiogroups present in the molecule suffer fragmentation to give the sodium salts of the corresponding mercaptoethylenes.
[3+1+1+1] Annulation to the Pyridine Structure in Quinoline Molecules Based on DMSO as a Nonadjacent Dual-Methine Synthon: Simple Synthesis of 3-Arylquinolines from Arylaldehydes, Arylamines, and DMSO
Guo, Can-Cheng,Li, Hui,Liu, Qiang,Luo, Wei-Ping,Nie, Zhiwen,Su, Miao-Dong,Yang, Tonglin
, (2022/02/10)
A [3+1+1+1] annulation of arylamines, arylaldehydes, and dimethyl sulfoxide (DMSO) to the pyridine structure in quinolines using DMSO as a nonadjacent dual-methine (═CH?) synthon is disclosed. In this annulation, arylamines provide two carbon atoms and one nitrogen atom, arylaldehydes furnish one carbon atom, and DMSO provides two nonadjacent methines (═CH?) to the pyridine ring in quinoline molecules. This annulation provides a simple approach for the synthesis of 3-arylquinolines from readily available substrates in useful yields. On the basis of the control experiments and the literature, a plausible mechanism is proposed.
Cobalt modified N-doped carbon nanotubes for catalytic C=C bond formation via dehydrogenative coupling of benzyl alcohols and DMSO
Li, Jinlei,Liu, Guoliang,Shi, Lijun,Xing, Qi,Li, Fuwei
supporting information, p. 5782 - 5788 (2017/12/26)
The development of heterogeneous, cost-effective and environmentally benign catalysts to construct C=C bonds is highly desirable. We report here Co@N-doped carbon nanotubes (Co@NCNT) as a catalyst for a novel synthesis of styryl sulfides via dehydrogenative coupling of benzyl alcohols and DMSO under anaerobic conditions. This reaction maintains high atom efficiency as the C=C bond is formed without the cracking of the C-S bond. We proposed that Co modified N-doped carbon sites are the active sites, different from traditionally believed metal centers for dehydrogenative C-C coupling. Moreover, the Co@NCNT catalyst could be easily separated and recycled for at least six runs. This work opens up a new application of metal-N-C catalysts in C=C bond-forming reactions in synthetic chemistry.
One-pot synthesis of alkyl styryl sulfides free from transition metal/ligand catalyst and thiols
Heredia, Adrian A.,Penenory, Alicia B.
, p. 991 - 997 (2013/03/14)
A new protocol for the one-pot synthesis of styryl alkyl sulfides was developed. This methodology involves the in situ generation of thiolate anions by nucleophilic substitution between potassium thioacetate and alkyl halides followed by fragmentation. Further reactions of these thiolate anions with substituted (E,Z)-β-styryl halides gave the corresponding sulfides with retention of stereochemistry in good to excellent yields. This procedure does not require a metal catalyst, it proceeds under mild conditions and in short times, and it is free from malodorous and air-sensitive alkyl thiols. Copyright