Cyclic Voltammetry Stufy And Electrochemical Synthesis Of Some Organotellurium Compounds

Abstract: The electrochemical behavior of diphenyl ditelluride, bis(2-amino-5-methyl phenyl)ditelluride and bis(2-amino-5-bromo phenyl)ditellurid have been investigated by cyclic voltammetry(CV) in methanol or THF at room temperature. The results showed two single successive electron transfer through the reduction process. This technique was used to determine the best voltage regions in order to carry out the electrochemical synthesis of unsymmetrical organic telluride, i.e : ethyl phenyl telluride (1), propyl phenyl te… Show more

“…In recent years, there has been great interest in studying organo-tellurium compounds containing azomethane group due to the high stability and various applications of these compounds [3,4]. The applications of organotellurium compounds have been reported in several fields [4][5][6][7][8]. Past research reported using organotellurium compounds as antioxidant agents [5,9,10], polymerization catalysts [11][12][13], antitumor and pharmaceutical agents [5,14,15], organic superconductors [3,7], synthetic intermediate [4], and ligands with many transition metal ions [3,16,17].…”

A new organotellurium compounds based on camphor, aniline and p-toluidine: preparation, characterization and theoretical study

“…In recent years, there has been great interest in studying organo-tellurium compounds containing azomethane group due to the high stability and various applications of these compounds [3,4]. The applications of organotellurium compounds have been reported in several fields [4][5][6][7][8]. Past research reported using organotellurium compounds as antioxidant agents [5,9,10], polymerization catalysts [11][12][13], antitumor and pharmaceutical agents [5,14,15], organic superconductors [3,7], synthetic intermediate [4], and ligands with many transition metal ions [3,16,17].…”

A new organotellurium compounds based on camphor, aniline and p-toluidine: preparation, characterization and theoretical study

Anodic Carboxylation and Sulfonylation of Organotellurium Compounds. Electrochemical Synthesis of Hypervalent Tellurium Compounds Bearing Te–O Bonds