1310487-25-2Relevant academic research and scientific papers
Palladacycle-catalyzed reaction of bicyclic alkenes with terminal ynones: Regiospecific synthesis of polysubstituted furans
Ge, Guang-Cun,Mo, Dong-Liang,Ding, Chang-Hua,Dai, Li-Xin,Hou, Xue-Long
, p. 5756 - 5759 (2012)
A new synthetic strategy to access polysubstituted furans regiospecifically has been developed using simple bicyclic alkenes and terminal ynones as starting materials with palladacycles as unique active catalysts. A rational mechanism has also been proposed. This reaction features mild reaction conditions, easily available starting materials and palladacycle catalysts, a wide substrate scope, and high regiospecificity.
Propargylation of CoQ0 through the Redox Chain Reaction
Pawlowski, Robert,Stodulski, MacIej,Mlynarski, Jacek
, p. 683 - 692 (2022/01/04)
An efficient catalytic propargylation of CoQ0 is described by employing the cooperative effect of Sc(OTf)3 and Hantzsch ester. It is suggested to work through the redox chain reaction, which involves hydroquinone and dimeric propargylic moiety intermediates. A broad range of propargylic alcohols can be converted into the appropriate derivatives of CoQ0 containing triple bonds in good to excellent yields. The mechanism of the given transformation is also discussed.
Multisubstituted pyrazole synthesis via [3?+?2] cycloaddition/rearrangement/N[sbnd]H insertion cascade reaction of α-diazoesters and ynones
Feng, Xiaoming,Liu, Xiaohua,Zeng, Zi,Zhao, Peng
supporting information, p. 132 - 135 (2020/12/21)
The cascade reactions of alkyl α-diazoesters and ynones using Al(OTf)3 as the catalyst are described. A series of 4-substituted pyrazoles were obtained via [3 + 2] cycloaddition, 1,5-ester shift, 1,3-H shift, and N[sbnd]H insertion process. Deuterium labelling experiments, kinetic studies and control experiments were carried out for the rationalization of the mechanism.
Base-catalyzed cascade 1,3-H shift/cyclization reaction to construct polyaromatic furans
Wang, Ya-Hui,Liu, Heng,Zhu, Li-Li,Li, Xiao-Xiao,Chen, Zili
supporting information; experimental part, p. 707 - 712 (2011/05/06)
A convenient new method was developed to prepare unfused polyaromatic furan derivatives from diynyl-1,6-diols through a novel base-catalyzed cascade 1,3-H shift/cyclization process. Deuterium experiments were performed to determine that the 1,3-H shift was the rate-determining step. Copyright
Highly enantioselective addition of trimethylsilylacetylene to aldehydes catalyzed by a zinc-amino-alcohol complex
Li, Zhi-Yuan,Wang, Min,Bian, Qing-Hua,Zheng, Bing,Mao, Jian-You,Li, Shuo-Ning,Liu, Shang-Zhong,Wang, Ming-An,Zhong, Jiang-Chun,Guo, Hong-Chao
supporting information; experimental part, p. 5782 - 5786 (2011/06/26)
A fine addition! A highly enantioselective and efficient procedure for the amino-alcohol-zinc-catalyzed addition of trimethylsilylacetylene to aromatic, α,β-unsaturated, and aliphatic aldehydes has been developed (see scheme; R=aryl, alkynyl, or alkyl; TMS=trimethylsilyl; TBDMS=tert- butyldimethylsilyl). The present protocol was successfully applied in the concise synthesis of the natural products marine alkynol and falcarindiol. Copyright
