Electrochemical behaviour of selenoorganic compounds—I. Dibenzo (b,d) selenopyrane and related compounds

The electrochemical behaviour of benzyl phenyl selenide was investigated by voltammetry using a rotating platinum disk electrode, cyclic voltammetry, controlled potential coulometry and electrolysis. The measurements were made in acetonitrile solution. In contrast to the case of benzyl phe.nyl sulfi

Ahstraet-The electrochemical oxldatlon of henzo(b)selenophene and dknzo(b,d)selenophene m nonaqueous media has heen studied using platmum and glassy carbon electrodes The selenoxlde of d&enzo(b,d)selenophene has heen isolated A mechanism consistent with voltammetnc measurements has heen established

The electrochemical oxldatlon of dlbenzo(c, e)-1,2-dlselemne lb has been investigated m acetomtnle medmm by voltammetry at rotating platmum electrode, cychc voltammetry and constant potential coulometry The exhaustive oxldatlon of compound lb exclusively leads to the formatlon of the monoxide of dlb

## Abstract Methyl‐N‐carbobenzoxy‐β‐^131^I‐D‐alaninate (**2**) was synthesized by the melt method. Partial hydrolysis of compound **2** gave methyl β‐^131^I‐D‐alaninate (**3**). Hydrolysis of **2** with **2** N HCl gave β‐^131^I‐D‐alanine. The ^123^I and ^125^I labelled compounds were synthesized b

7,12-tetrahydrocycloocta[1,26]pyridine-12-one (111) and 5,&benzo-5,6,11,12-tetrahydrocycloocta-[l,B]pyridine-11-one (IV) were prepared. Wolff-Kishner reduction gave the corresponding azahydrocarbons (VIIa and IX). Alkylation of 6,7-benzo-12H-5,6,7,12-tetrahydrocycloocta[1,~]pyridine, using potassium