129503-26-0Relevant articles and documents
Scalable, transition-metal-free direct oxime o-arylation: Rapid access to o-arylhydroxylamines and substituted benzo[b]furans
Gao, Hongyin,Xu, Qing-Long,Keene, Craig,Kuerti, Laszlo
, p. 8883 - 8887 (2014)
O-Aryloximes, generated from readily available and inexpensive oximes through transition-metal-free O-arylation, can either be hydrolyzed to O-arylhydroxylamines or conveniently converted to structurally diverse benzo[b]furans through an environmentally benign, one-pot [3,3]-sigmatropic rearrangement/cyclization sequence. A scalable, transition-metal-free (TM-free) direct O-arylation of ketone oximes with a wide range of diaryliodonium salts has been developed. More than two dozen O-arylated oximes have been prepared in good to excellent yields at ambient temperature and were converted to the corresponding substituted benzo[b]furans through a [3,3]-sigmatropic rearrangement/cyclization sequence. Overall, this operationally simple, environmentally benign, and protecting-group-free approach, including a one-pot variant, allows rapid and convenient synthetic access to substituted benzo[b]furans (see scheme).
Electrochemical Synthesis of Thienoacene Derivatives: Transition-Metal-Free Dehydrogenative C?S Coupling Promoted by a Halogen Mediator
Mitsudo, Koichi,Matsuo, Ren,Yonezawa, Toki,Inoue, Haruka,Mandai, Hiroki,Suga, Seiji
supporting information, p. 7803 - 7807 (2020/04/15)
The first electrochemical dehydrogenative C?S bond formation leading to thienoacene derivatives is described. Several thienoacene derivatives were synthesized by dehydrogenative C?H/S?H coupling. The addition of nBu4NBr, which catalytically promoted the reaction as a halogen mediator, was essential.
Synthesis of benzofurans from terminal alkynes and iodophenols catalyzed by recyclable palladium nanoparticles supported on N,O-dual doped hierarchical porous carbon under copper- and ligand-free conditions
Ji, Guijie,Duan, Yanan,Zhang, Shaochun,Yang, Yong
, p. 101 - 108 (2018/05/05)
We herein report that a stable and recyclable heterogeneous catalyst, consisting of Pd nanoparticles supported on N,O-dual doped hierarchical porous carbon derived from naturally available and renewable biomass-bamboo shoots, which allows for highly efficient one-pot tandem reaction of o-iodophenols with terminal alkynes to synthesize biologically active 2-benzofuran derivatives under copper- and ligand-free conditions. The catalyst performed superior catalytic performance compared with the analogous Pd/C and supported on other metal oxides under otherwise identical conditions. A broad set of aryl and alkyl terminal alkynes can be effectively coupled /cyclized with various o-iodophenols to afford their corresponding 2-benzofurans in good to high yields with good tolerance of multiple functional groups. Moreover, the catalyst showed good stability and could be reused several times without significant loss of activity.