Synthesis and characterization of binary chromophore polymers
for electro-optic application

Xianqing Piao, Shinichiro Inoue, Shiyoshi Yokoyama, Hideki Miki, Isao Aoki,
Akira Otomo, Hidehisa Tazawa


Abstract

We prepared the side-chain electro-optic polymers by the active bonding of cyanate- and hydroxy-functional groups, and employed these side-chain polymers as hosts for the bi-chromophore system to enhance the electro-optic coefficient (r33). In singular chromophore polymer (in PMMA host), the dependence of EO response on loading concentration was examined, r33 about 26 pm/V was obtained. In order to further incorporate the chromophore, the loading behavior in binary chromphore systems was investigated. The optimal r33 more than 40 pm/V was achieved, which was almost the sum of two individual polymers. Furthermore, the temporal stability at room temperature and 85 C, respectively, over 500 h was evaluated for the potential application on electro-optic devices.


doi:10.1016/j.tsf.2009.07.027