34136-59-9Relevant articles and documents
Incorporation of Carbon Dioxide into Carbamate Directing Groups: Palladium-Catalyzed meta-C–H Olefination and Acetoxylation of Aniline Derivatives
Yang, Long,Fu, Lei,Li, Gang
, p. 2235 - 2240 (2017)
Carbon dioxide (CO2), a readily available, non-toxic, and inexpensive greenhouse gas, is an ideal reagent for carbamate synthesis. For the first time, CO2 has been efficiently incorporated into a novel nitrile-containing directing group (DG) for meta-C–H activation of anilines under mild conditions. Thus, various aniline derivatives were meta-olefinated with palladium(II) acetate. meta-C–H acetoxylation was also feasible and the carbamate DG could be easily removed under basic conditions. The practicality of substrate preparation, functional group tolerance, and versatility of this method make it a valuable addition to the meta-C–H functionalization of anilines. (Figure presented.).
Acetonitrile as a cyanating reagent: Cu-catalyzed cyanation of arenes
Zhu, Yamin,Zhao, Mengdi,Lu, Wenkui,Li, Linyi,Shen, Zengming
supporting information, p. 2602 - 2605 (2015/06/16)
A novel approach to the Cu-catalyzed cyanation of simple arenes using acetonitrile as an attractive cyano source has been documented. The C-H functionalization of arenes without directing groups involves a sequential iodination/cyanation to give the desired aromatic nitriles in good yields. A highly efficient Cu/TEMPO system for acetonitrile C-CN bond cleavage has been discovered. TEMPO is used as a cheap oxidant and enables the reaction to be catalytic in copper. Moreover, TEMPOCH2CN 6 has been identified as the active cyanating agent and shows high reactivity for forming the -CN moiety.
A general and efficient suzuki-miyaura cross-coupling protocol using weak base and no water: The essential mole of acetate
Wang, Bing,Sun, Hui-Xia,Sun, Zhi-Hua
experimental part, p. 3688 - 3692 (2009/12/03)
A weak base, CsOAc, promotes Suzuki-Miyaura cross-coupling and related Pd-catalyzed reactions under anhydrous conditions as effectively as stronger bases. Aryl triflates exhibit unusual reaction rates, which are comparable to that: of bromoarenes. A negle