54106-40-0Relevant articles and documents
Ligand-free copper-catalyzed O-arylation of arenesulfonamides with phenols: An unusual approach to biaryl ether synthesis
Chen, Junmin,Wang, Junmin,Chen, Xida,Huang, Yuming,Shouzhi, Pu
, p. 836 - 843 (2019/03/23)
An unprecedented ligand-free copper-catalyzed O-arylation of arenesulfonamides with phenols has been developed. Thus, a range of unsysmmetric biaryl ethers were synthesized in excellent yields. The reaction occurs efficiently with excellent regioselectivity through the cleavage of Cary–S bond and with a good tolerance of functional groups on the phenyl ring of phenols. The reaction is appreciated for its readily accessible substrates, mild conditions, and simple operation under air.
A Fast Way to Fluorescence: A Fourfold Domino Reaction to Condensed Polycyclic Compounds
Tietze, Lutz F.,Eichhorst, Christoph,Hungerland, Tim,Steinert, Markus
supporting information, p. 12553 - 12558 (2016/08/25)
A fast and efficient palladium-catalyzed fourfold domino Sonogashira/double-carbopalladation/C H-activation reaction that converts simple aromatic systems into complex polycyclic hydrocarbons has been developed. A number of substituted products has thus been prepared in yields up to 89 %. The structural assignment has been confirmed by using single-crystal X-ray crystallography. The products show intriguing fluorescence activity and thus might serve as chemical sensors or fluorescent imaging dyes.
Iron/copper-cocatalyzed ullmann N,O-arylation using FeCl3, CuO, and rac-1,1′-Binaphthyl-2,2′-diol
Wang, Zhe,Fu, Hua,Jiang, Yuyang,Zhao, Yufen
body text, p. 2540 - 2546 (2009/04/12)
We have developed an efficient and inexpensive bimetallic catalyst FeCl3, CuO, and rac-BINOL that could promote N,O-arylation of aliphatic, arylamines, and phenols. The cross-coupling reaction conditions have high tolerance of various functional groups. This versatile and efficient iron/copper-cocatalyst can widely be used in the synthesis of the compounds containing (aryl)C-N or (aryl)C-O(aryl) bond. Georg Thieme Verlag Stuttgart.