144649-99-0Relevant articles and documents
Mechanistic study on iodine-catalyzed aromatic bromination of aryl ethers by N-Bromosuccinimide
Pramanick, Pranab Kumar,Hou, Zhen-Lin,Yao, Bo
, p. 7105 - 7114 (2017/11/27)
Although iodine-catalyzed reaction has rapid advances in recent years, examples on iodine-catalyzed bromination are rare and the mechanism of these reactions remains unclear. Herein, we reported an I2-catalyzed aromatic bromination of aryl ethers by NBS and presented the details of the mechanistic study including kinetic study and the study of kinetic isotope effects. The study revealed that the reaction was actually catalyzed by IBr formed in the induction period, and the rate-determining step was the HBr-elimination of the Wheland intermediate assisted by IBr.
A highly efficient electrochemical route for the conversion of aldehydes to nitriles
Qu, Qinghui,Gao, Xiaofang,Gao, Jian,Yuan, Gaoqing
, p. 747 - 750 (2015/04/14)
Using NH4I as the supporting electrolyte as well as the precursor of an I2 promoter and nitrogen source, a highly efficient electrochemical route was developed to convert aldehydes to nitriles with excellent yields under mild reaction conditions. This electrochemical process could effectively avoid the direct use of NH3 gas, molecular iodine, and oxidants.
Mild and general palladium-catalyzed synthesis of methyl aryl ethers enabled by the use of a palladacycle precatalyst
Cheung, Chi Wai,Buchwald, Stephen L.
supporting information, p. 3998 - 4001 (2013/09/02)
A general method for the Pd-catalyzed coupling of methanol with (hetero)aryl halides is described. The reactions proceed under mild conditions with a wide range of aryl and heteroaryl halides to give methyl aryl ethers in high yield.