27326-83-6Relevant articles and documents
Exploring the Limits of π-Acid Catalysis Using Strongly Electrophilic Main Group Metal Complexes: The Case of Zinc and Aluminium
Tian, Jiaxin,Chen, Yan,Vayer, Marie,Djurovic, Alexandre,Guillot, Régis,Guermazi, Refka,Dagorne, Samuel,Bour, Christophe,Gandon, Vincent
, p. 12831 - 12838 (2020)
The catalytic activity of cationic NHC-ZnII and NHC-AlIII (NHC=N-heterocyclic carbene) complexes in reactions that require the electrophilic activation of soft C?C π bonds has been studied. The former proved able to act as a soft π-L
Carbonyl-Olefin Metathesis Catalyzed by Molecular Iodine
Tran, Uyen P. N.,Oss, Giulia,Breugst, Martin,Detmar, Eric,Pace, Domenic P.,Liyanto, Kevin,Nguyen, Thanh V.
, p. 912 - 919 (2019/01/14)
The carbonyl-olefin metathesis reaction could facilitate rapid functional group interconversion and allow construction of complicated organic structures. Herein, we demonstrate that elemental iodine, a very simple catalyst, can efficiently promote this chemical transformation under mild reaction conditions. Our mechanistic studies revealed intriguing aspects of the activation mode via molecular iodine and the iodonium ion that could change the previously established perception of catalyst and substrate design for the carbonyl-olefin metathesis reaction.
Cobalt-Catalyzed Cross-Couplings between Alkenyl Acetates and Aryl or Alkenyl Zinc Pivalates
Li, Jie,Knochel, Paul
, p. 11436 - 11440 (2018/08/11)
CoBr2 (5 mol %) in the presence of 2,2′-bipyridyl (5 mol %) enables electrophilic alkenylations between easily accessible alkenyl acetates or tosylates and various functionalized aryl zinc pivalates at ambient temperature. This cobalt-catalyzed