62594-97-2Relevant academic research and scientific papers
B(C6F5)3-Catalyzed Hydroarylation of Terminal Alkynes with Phenols
Huang, Jin,Huang, Liangbin,Jiang, Huanfeng,Lu, Changhui,Zhou, Jiaming
supporting information, p. 3962 - 3967 (2021/07/26)
We developed a B(C6F5)3 catalyzed hydroarylation of terminal alkynes with various phenols at room temperature without adding any additives, leading to the synthesis of 2-gem-vinylphenols with good regio-selectivity. Those transformations featured a broad substrate scope with moderate yields. Mechanism studies indicated that those transformations proceeded through the activation of phenol by B(C6F5)3 with subsequent protonation of alkyne/Friedel-Crafts-type reaction. (Figure presented.).
B(C6F5)3-Catalyzed Hydroarylation of Aryl Alkynes for the Synthesis of 1,1-Diaryl and Triaryl Substituted Alkenes
Chen, Hui,Gao, Liuzhou,Liu, Xueting,Wang, Guoqiang,Li, Shuhua
supporting information, p. 5238 - 5242 (2021/10/19)
A new strategy for the synthesis of 1,1-diaryl and triarylsubstituted alkenes has been developed utilizing B(C6F5)3-catalyzed hydroarylation of alkynes with phenols. The method provides a direct route to ortho-alkenylated phenols with both terminal and internal alkynes. The reactions show excellent regioselectivity, and good stereoselectivity was observed for the hydroarylation of internal alkynes. Computational and experimental studies suggest that for the reaction of internal alkynes and phenols, an acid-catalyzed isomerization mechanism involving two tertiary carbonium ion intermediates is responsible for the formation of Z-triaryl substituted alkenes.
Hydroarylation of alkynes and alkenes through alumina-sulfuric acid catalyzed regioselective C–C bond formation
Pramanik, Amit,Ghatak, Avishek,Khan, Sagar,Bhar, Sanjay
supporting information, p. 1091 - 1095 (2019/03/26)
A highly atom-efficient synthetic protocol for hydroarylation of terminal-aryl alkynes and styrene through the regioselective C–C bond formation via the electrophilic addition of naphthols and substituted phenols has been developed using alumina-sulfuric acid as a heterogeneous supported solid acid catalyst. This methodology shows excellent regioselectivity and affords the desired product in good to excellent yield. The heterogeneous catalyst can also be recycled efficiently without much loss of activity.
Iron-containing mesoporous aluminosilicate catalyzed direct alkenylation of phenols: Facile synthesis of 1,1-diarylalkenes
Haldar, Satyajit,Koner, Subratanath
supporting information, p. 49 - 55 (2013/03/28)
The addition of phenols to aryl-substituted alkynes to form 1,1-diarylalkenes was carried out by using the Fe-Al-MCM-41 catalyst. The catalyst showed remarkable improvement in time and yield in comparison to other solid catalysts. The heterogeneous cataly
Benzofurans from benzophenones and dimethylacetamide: Copper-promoted cascade formation of furan O1-C2 and C2-C3 bonds under oxidative conditions
Moure, Maria J.,Sanmartin, Raul,Dominguez, Esther
supporting information; experimental part, p. 3220 - 3224 (2012/05/05)
DMA donates: Copper(II) acetate and 8-hydroxyquinoline promote the formation of a benzofuran core through a cascade of copper-catalyzed processes wherein the key carbon atom comes from the dimethylacetamide (DMA) solvent. Strong evidence for the participation of a Wacker cyclization catalyzed solely by copper is provided, not only in the title reaction from benzophenones but also from 2-hydroxy-α-arylstyrene derivatives. Copyright
