187147-62-2Relevant articles and documents
Copper-catalyzed oxidative cross-dehydrogenative coupling of 2H-chromenes and terminal alkynes
Yang, Fei,Li, Yangshan,Floreancig, Paul E.,Li, Xiaoyan,Liu, Lei
, p. 5144 - 5149 (2018/07/29)
An efficient copper-catalyzed cross-dehydrogenative coupling of 2H-chromenes and terminal alkynes mediated by DDQ has been established. A protic additive, EtOH, proved to be crucial for harmonizing the oxidation with a subsequent alkynylation step by retaining the oxidation state of an oxocarbenium ion in the form of acetal. The CDC reaction exhibits a good substrate scope, with a range of terminal aryl- and alkyl alkynes being well tolerated. The copper-catalyzed alkynylation of 2H-chromene acetals with terminal alkynes was also explored.
Practical and highly selective C-H functionalization of structurally diverse ethers
Wan, Miao,Meng, Zhilin,Lou, Hongxiang,Liu, Lei
supporting information, p. 13845 - 13849 (2015/01/16)
A trityl ion mediated C-H functionalization of ethers with a wide range of nucleophiles at ambient temperature has been developed. The reaction displays high chemo-selectivity and good functional group tolerance. The protocol also exhibits excellent regio- and diastereoselectivities for the unsymmetric ethers, thus stereoselectively generating highly functionalized disubstituted 2,5-trans tetrahydrofurans (THF), 2,6-trans tetrahydropyrans (THP), 2,6-trans dihydropyrans (DHP), and 1,3-trans isochromans, and highlighting the capacity of the protocol in complex molecule synthesis.
