61463-61-4Relevant articles and documents
MIDA boronate allylation-synthesis of ibuprofen
Brodie, Glen,France, David J.,Memarzadeh, Sarah,Phillips, David,Tang, Gi Lum
, p. 30624 - 30630 (2020/09/11)
MIDA boronates are among the most useful reagents for the Suzuki-Miyaura reaction. This chemistry typically generates new bonds between two aromatic rings, thereby restricting access to important areas of chemical space. Here we demonstrate the coupling of MIDA boronates to allylic electrophiles, including a new synthesis of the well-known COX inhibitor ibuprofen. This journal is
One-pot Construction of Difluorinated Pyrrolizidine and Indolizidine Scaffolds via Copper-Catalyzed Radical Cascade Annulation
Wang, Xiaoyang,Li, Miao,Yang, Yanyan,Guo, Minjie,Tang, Xiangyang,Wang, Guangwei
supporting information, p. 2151 - 2156 (2018/04/26)
A convenient approach to the synthesis of diverse difluorinated nitrogen-containing polycycles via a copper-catalyzed radical cascade annulation of amine-containing olefins and ethyl bromodifluoroacetate was developed. Three new bonds, including a Csp3 ?CF2 and two C?N bonds, are forged simultaneously in this strategy. Through this strategy, a series of difluorinated pyrrolizidine and indolizidine derivatives have been conveniently synthesized in good yields. (Figure presented.).
Copper-Catalyzed Redox-Triggered Remote C-H Functionalization: Highly Selective Formation of C-CF3 and C-O Bonds
Li, Taotao,Yu, Peng,Lin, Jin-Shun,Zhi, Yonggang,Liu, Xin-Yuan
supporting information, p. 490 - 494 (2016/06/01)
A Cu-catalyzed remote sp3 C-H/unactivated alkenes functionalization reaction for the concomitant construction of C-CF3 and C-O bonds was described. An 1,5-H radical transfer involving an sp3 C-H bond adjacent to a nitrogen atom and an α-CF3-alkyl radical intermediate derived from unactivated alkenes was observed and demonstrated to proceed via the radical process. C-CF3 formation/1,5-H radical shift/remote functionalization of sp3 C-H bond.