252556-97-1Relevant academic research and scientific papers
N-(4-Chloro-2-iodophenyI)N-methyl-cinnamamide
Renganayaki,Subramanian,Shanmuga Sundara Raj,Fun, Hoong-Kun
, p. 1672 - 1673 (1999)
In the title compound, C16H13ClINO, the cinnamamide group is almost planar. The phenyl rings are almost perpendicular, making an interplanar angle of 83.1 (1)° with one another. The molecules are packed as dimers through C - H ... O
Copper-catalyzed highly selective synthesis of 2-benzyl- and 2-benzylidene-substituted benzo[: B] thiazinones from 2-iodophenylcinnamamides and potassium sulfide
Liu, Wenjuan,Min, Hao,Zhu, Xiaoming,Deng, Guobo,Liang, Yun
, p. 9804 - 9808 (2017/12/08)
An efficient and practical procedure for the synthesis of 2-benzyl- and 2-benzylidene-substituted benzo[b]thiazinones from easily available 2-iodophenylcinnamamides and potassium sulfide has been developed. In the presence of DBU, the reaction proceeds vi
Cathodic reduction of N-(2-iodophenyl)-N-alkylcinnamides: A novel sequential electrochemical radical cyclisation and hydroxylation
Munusamy, Raja,Dhathathreyan, Kaveripatnam Samban,Balasubramanian, Kalpattu Kuppusamy,Venkatachalam, Chitoor Sivaramakrishnan
, p. 1154 - 1166 (2007/10/03)
In recent years, intramolecular aryl radical cyclisation has emerged as a useful route for the synthesis of benzannulated heterocycles and carbocycles. The aryl radicals are generated in situ from aryl halides (iodides or bromides) with tributylstannyl hydride-AIBN, SmI2, Co(I) or under photochemical conditions. The present work envisages the generation of aryl radicals by cathodic reduction of the carbon-iodine bond of N-(2-iodophenyl)-N-alkylcinnamides and their intramolecular cyclisation. The cathodic reduction of N-(2-iodophenyl)-N-alkyl-cinnamides under deaerated conditions in DMF gave 1-alkyl-3-benzylindolin-2-ones regioselectively and in the presence of oxygen yielded surprisingly 1-alkyl-3-hydroxy-3-benzylindolin-2-ones. Both these products were formed by a 5-exo-trig process in good yields. A mechanism for the formation of the products has been proposed through the use of cyclic voltammetry, coulometry and controlled-potential electrolysis as well as deuterium labelling.
