Selected Paper : Alkynoxy-Directed C-H Functionalizations : Palladium(0)-Catalyzed Annulations of Alkynyl Aryl Ethers with Alkynes

Minami Yasunori, Shiraishi Yuki, Kodama Tatsuro, Kanda Mayuko, Yamada Kotomi, Anami Tomohiro, Hiyama Tamejiro

doi:10.1246/bcsj.20150180

Palladium(0)-catalyzed insertion/annulation sequence between aryl silylethynyl ethers and internal alkynes was found to proceed through activation of ortho-C–H bonds assisted by alkynoxy groups and gave stereoselectively (Z)-2-silylmethylenechromenes. These products could be easily converted into 2,2-alkylated 2H-chromene derivatives, an important structural motif in medicinal chemistry and materials science. Various aryl silylethynyl ethers and alkynes can be transformed under the reaction conditions, and a wide range of chromenes is thus accessible. When unsymmetric alkynes are employed, a regioselective annulation takes place, especially those containing aryl and/or bulky substituents. Catalytic systems based on palladium(0), such as Pd(OAc)₂/PCy₃/Zn, [Pd(dba)₂]/PCy₃, or Pd(PCy₃)₂ exhibit excellent catalytic activity, and the best performance is observed for Pd(PCy₃)₂ in combination with Zn(OAc)₂ as an additive. Substituents on the aryl group in the alkynyl aryl ethers rarely affect the reaction rate. Deuterium-labeling experiments suggest that the ortho-hydrogen atom migrates to the 2-methylene position in the chromene products. The cleavage of the C–H bond is considered to be the rate-determining step in these reactions.

Selected Paper : Alkynoxy-Directed C-H Functionalizations : Palladium(0)-Catalyzed Annulations of Alkynyl Aryl Ethers with Alkynes

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Selected Paper : Alkynoxy-Directed C-H Functionalizations : Palladium(0)-Catalyzed Annulations of Alkynyl Aryl Ethers with Alkynes

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