The role of water in the electrochemical chlorination of cycloolefins in nitromethane solution

The anodic chlorination of c-hexene in NM solution having 150 ppm water content involves three charge-transfer reactions. The effect of potential on change in product distribution is more effective at the beginning of electrolysis. A mechanism for the process is suggested.

Effect of water content on product dtstribution in electrochemical chlorination of c-hexene in nitromethane solution was studied. Formation of I-chloro, c-hexanone which occurs at the beginning of electrolysis is more effective at lower water content

The iniluence of water in the anodic coupling of two pyrrole monomers (3-methylthiopyrrole (1) and dihydrobenzo-[1.2-b:4$b']-dipyrrole (2)) to polypyrrole in acetonitrilc was investigated by cyclic voltammetry and controlled potential electrolysis. Oxidation requires 1 e-mol-' in anhydrous condition

In this process a complex intermediate forms between the olefin and Br2 evolved and it transforms to dibromo-c-hexane. At higher potential values theelectrochemical oxidation ofthiscomplex results bromoc-hexanol, the formation of which is hindered by oxide layer on the electrode surface.