2-브로모에틸 이소시아네이트를 이용한 2-에티닐피리딘의 4차염화 중합을 통한 이온성 폴리아세틸렌 유도체

An ionic polyacetylene derivative with isocyanate group-containing pyridyl substituents was synthesized via the quaternization polymerization of 2-ethynylpyridine using 2-bromoethyl isocyanate. This polymerization has a mechanism by which a monomeric species with an activated acetylene group produced in the first reaction of 2-ethylpyridine using 2-bromoethyl-isocyanate is initiated and propagated without the need for a separate catalyst or initiator. As a result of measuring and analyzing the molecular structure of the obtained polyacetylene using various instrumental methods, it was confirmed that the conjugated backbone system having the designed pyridinium substituents is synthesized. In the UV-visible spectrum of the ionic polyacetylene containing the isocyanate group, the maximum absorption at a longer wavelength was observed at 518 nm, which is attributed to a π→π* transition, and the bandgap was found to be 1.91 eV. The cyclic voltammetry measurement of the polymer showed irreversible electrochemical behavior, with an oxidation peak at 1.00 V and a reduction peak at -1.35 V. Stable results were obtained even after 50 continuous scans. Furthermore, upon increasing the scan rate during the redox process of the polymer, a proportional increase in the oxidation and reduction current values was observed, indicating a normal electrochemical response.